CN106083502A - Lead-in wire drying unit and apply its lead processing equipment - Google Patents
Lead-in wire drying unit and apply its lead processing equipment Download PDFInfo
- Publication number
- CN106083502A CN106083502A CN201610585073.0A CN201610585073A CN106083502A CN 106083502 A CN106083502 A CN 106083502A CN 201610585073 A CN201610585073 A CN 201610585073A CN 106083502 A CN106083502 A CN 106083502A
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- China
- Prior art keywords
- lead
- wire
- inner core
- housing
- axial translation
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Classifications
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- C—CHEMISTRY; METALLURGY
- C06—EXPLOSIVES; MATCHES
- C06C—DETONATING OR PRIMING DEVICES; FUSES; CHEMICAL LIGHTERS; PYROPHORIC COMPOSITIONS
- C06C5/00—Fuses, e.g. fuse cords
- C06C5/08—Devices for the manufacture of fuses
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B13/00—Machines and apparatus for drying fabrics, fibres, yarns, or other materials in long lengths, with progressive movement
- F26B13/10—Arrangements for feeding, heating or supporting materials; Controlling movement, tension or position of materials
- F26B13/101—Supporting materials without tension, e.g. on or between foraminous belts
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B21/00—Arrangements or duct systems, e.g. in combination with pallet boxes, for supplying and controlling air or gases for drying solid materials or objects
- F26B21/02—Circulating air or gases in closed cycles, e.g. wholly within the drying enclosure
- F26B21/04—Circulating air or gases in closed cycles, e.g. wholly within the drying enclosure partly outside the drying enclosure
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B21/00—Arrangements or duct systems, e.g. in combination with pallet boxes, for supplying and controlling air or gases for drying solid materials or objects
- F26B21/06—Controlling, e.g. regulating, parameters of gas supply
- F26B21/08—Humidity
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B23/00—Heating arrangements
- F26B23/001—Heating arrangements using waste heat
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B25/00—Details of general application not covered by group F26B21/00 or F26B23/00
- F26B25/02—Applications of driving mechanisms, not covered by another subclass
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P20/00—Technologies relating to chemical industry
- Y02P20/10—Process efficiency
- Y02P20/129—Energy recovery, e.g. by cogeneration, H2recovery or pressure recovery turbines
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Manufacturing & Machinery (AREA)
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Drying Of Solid Materials (AREA)
Abstract
The invention discloses a kind of lead processing equipment going between drying unit and applying it, lead-in wire drying unit includes: housing, and described housing has inner chamber, described housing is provided with all with lead-in wire import and the lead outlet of intracavity inter-connection;Inner core, described inner core is positioned at intracavity, and described inner core can be rotated to support on housing, the multiple lead-in wire axial translation mechanism circumferentially along inner core it is provided with on described inner core, axially being disposed with heating zone and cooling zone along inner core in described housing, the lead-in wire entered from lead-in wire import is first wound on described inner core and lead-in wire axial translation mechanism;Drive mechanism, described drive mechanism is in transmission connection with inner core, and described drive mechanism is also connected with multiple lead-in wire axial translation mechanism driving, in order to described drive mechanism simultaneously drives multiple lead-in wire axial translation mechanism action when driving inner cylinder rotating.The present invention can improve the quality of production and the efficiency that lead-in wire is dried, and reduces labor intensity, strengthens security performance.
Description
Technical field
The present invention relates to a kind of lead processing equipment going between drying unit and applying it.
Background technology
At present, the lead processing equipment of prior art disconnected draws frequently, production efficiency is low, labor intensity is big, ripe to operative employee
Practice degree and require height, lack safety protection facility;Automaticity is low.
Summary of the invention
The technical problem to be solved is the defect overcoming prior art, it is provided that a kind of lead-in wire drying unit, it
The quality of production and efficiency that lead-in wire is dried can be improved, reduce labor intensity, strengthen security performance.
In order to solve above-mentioned technical problem, the technical scheme is that a kind of lead-in wire drying unit, it includes:
Housing, described housing has inner chamber, described housing is provided with all with lead-in wire import and the lead-in wire of intracavity inter-connection
Outlet;
Inner core, described inner core is positioned at intracavity, and described inner core can be rotated to support on housing, and described inner core sets
It is equipped with the multiple lead-in wire axial translation mechanism circumferentially along inner core, axially setting gradually along inner core in described housing
Having heating zone and cooling zone, the lead-in wire entered from lead-in wire import is first wound on described inner core and lead-in wire axial translation mechanism;
Drive mechanism, described drive mechanism is in transmission connection with inner core, described drive mechanism also with multiple lead-in wire axial translations
Mechanism driving connects, in order to described drive mechanism simultaneously drives multiple lead-in wire axial translation mechanism action when driving inner cylinder rotating,
Thus heating zone and cooling zone will be moved to successively, so from the lead-in wire that lead-in wire import enters by multiple lead-in wire axial translation mechanism
Rear lead-in wire is gone out from described lead outlet again;
Heat-source Cycles system, described heat-source Cycles system is connected with the heating zone in housing, in order to described heat-source Cycles system
System is to described heating zone circulation-supplied thermal source;
Low-temperature receiver feeding mechanism, described low-temperature receiver feeding mechanism is connected with the cooling zone in housing, in order to described low-temperature receiver supply fills
Put and supply low-temperature receiver to described cooling zone.
Further providing the concrete structure of a kind of heat-source Cycles system, described heat-source Cycles system includes heat pump heat supply system
System and circulating fan, be provided with hot-air channel and return air channel, the air outlet of described heat pump heat distribution system and institute in described inner core
The air inlet stating circulating fan is connected, and the air outlet of described circulating fan is connected with heating zone by described hot-air channel,
The air inlet of described heat pump heat distribution system is connected with described heating zone by return air channel.
Further providing the concrete structure of a kind of low-temperature receiver feeding mechanism, described low-temperature receiver feeding mechanism is cooling blower, institute
Being additionally provided with cooling wind passage in stating inner core, the air inlet of described cooling blower is used for extracting Cryogenic air, described cooling blower
Air outlet be connected with described cooling zone by cooling air channel.
Further, described drive mechanism includes that power source, described inner core can be rotated to support on housing by rotary shaft,
Described power source is connected with described transmission of rotary axis, in order to described power source drives described rotary shaft to rotate on housing.
Further provide the concrete structure of a kind of axial translation mechanism that goes between, described lead-in wire axial translation mechanism include with
Step band wheel set, gear pair and sprocket wheel, axially arranged along inner core of the Timing Belt in described Timing Belt wheel set, described rotary shaft is led to
Crossing transmission component drives the sprocket wheel of one of them lead-in wire axial translation mechanism to rotate, the sprocket wheel in each lead-in wire axial translation mechanism
Being connected by chain drive, described sprocket wheel is in transmission connection with the gear pair in corresponding lead-in wire axial translation mechanism, described gear
Secondary and corresponding synchronous pulley auxiliary driving connects, thus finally drives Timing Belt moving axially along inner core.
Further providing the concrete structure of a kind of transmission component, described transmission component includes the first bevel gear pair, driven
Axle and the second bevel gear pair, described rotary shaft is in transmission connection with the first bevel gear pair, and the first bevel gear pair is with driven shaft transmission even
Connecing, driven shaft and the second bevel gear pair are in transmission connection, the second bevel gear pair and the sprocket wheel of one of them lead-in wire axial translation mechanism
It is in transmission connection.
Further for the phenomenon avoiding lead-in wire to stick together with inner core, each lead-in wire axial translation mechanism also correspondence one
Timing Belt will be driven in the radial undulation mechanism radially moved back and forth of inner core, and described lead-in wire axial translation mechanism also includes using
In the support wheels of support Timing Belt, described radial undulation mechanism includes guide pillar seat, guide pillar, slide block, roller, curve ruler, spring
Mechanism and pretension screw mandrel, described slide block is connected with corresponding support wheels by pretension screw mandrel, and described guide pillar seat is arranged on inner core
On, described guide pillar is arranged on guide pillar seat, and described slide block is sliding to be fitted on guide pillar, and described curve ruler is arranged on housing, described rolling
Wheel is arranged on the outside of slide block, and described spring mechanism is arranged between the inner side of described slide block and described inner core.
Further for the humidity in housing cavity carries out dehumidifying process, described lead-in wire drying unit also includes that dehumidifying fills
Putting, described humidity-discharging device is arranged on housing, and the intracavity inter-connection of the moisture exhausting port of humidity-discharging device and housing.
Further, lead-in wire drying unit also includes that extinguishing device, described extinguishing device include that fire quickly responds probe, control
Case processed and spray assemblies, described spray assemblies is arranged on housing and is formed on the inwall of inner chamber, and described fire quickly responds probe and sets
Putting in housing, described fire quickly responds the signal output part of probe and is connected with control chamber, and the control of described control chamber drives
End is connected with described spray assemblies.
Present invention also offers a kind of lead processing equipment, it include wet lead frame, the first lead-in wire broken thread detector, the
Two lead-in wire broken thread detectors, spasm machine and lead-in wire drying unit, described lead-in wire passes sequentially through first the most afterwards from wet lead frame
Lead-in wire broken thread detector, lead-in wire drying unit, second lead-in wire broken thread detector, finally enter spasm machine.
Further, described wet lead frame has wheel carrier, and described wheel carrier is provided with rotatable rotating shaft, and described rotating shaft is pacified
Equipped with wire leading wheel.
Further for avoiding the risk of wire breaking, between described rotating shaft and described wheel carrier, it is provided with antivibrator.
Further, described first lead-in wire broken thread detector and/or described second lead-in wire broken thread detector include frame,
Going between into orifice, the orifice that goes between out, corrugated tube and photoelectric sensor group, described lead-in wire is installed into orifice and the described orifice that goes between out
In frame, the described orifice that goes between is provided with lead-in wire hand-hole, the described orifice that goes between out is provided with lead-in wire and portals, described in draw
Line penetrates from lead-in wire hand-hole and is then passed through corresponding corrugated tube, and finally from the corresponding extraction of portalling that goes between, photoelectric sensor group is arranged
The orifice that goes between in frame and the lower section in region gone between out between orifice, in order to when disconnected lead-in wire occurs, corrugated tube falls,
Thus cut off the optical signal transmission between photoelectric sensor group.
Further provide the concrete structure of a kind of spasm machine, described spasm machine include go between guiding device, draw clamp device,
Frame and many group spasm assemblies, described spasm assembly includes running wheel pedestal, spasm motor, position rotaring motor, on described running wheel pedestal
Being provided with two running wheel axles being socketed running wheel on it, described position rotaring motor is connected with running wheel pedestal, in order to described position rotaring motor
Drive described running wheel pedestal to rotate, make two running wheel axles lead-in wire station and sky draw between station switch, described spasm motor with
Running wheel through-drive on lead-in wire station connects, in order to described spasm motor drives the running wheel axle on lead-in wire station to rotate, and lead-in wire is led
Leading-in device includes guiding motor, guiding carrier and screw pair, and the leading screw in described guiding motor-driven screw-nut pair rotates,
Nut in described screw pair is connected with described guiding carrier, and described guiding carrier is arranged in frame, and described guiding carrier
Can move being parallel to the axial direction of running wheel, initially pass through from described second lead-in wire broken thread detector lead-in wire out and lead
Draw frame, further around on the running wheel on the running wheel axle being in lead-in wire station.
After have employed technique scheme, enter preheating zone from the lead-in wire import of lead-in wire drying unit, in good order be around in
Inner core is with on the integral support of multiple lead-in wire axial translation mechanism composition, and lead-in wire axial translation mechanism slowly shifts to lead-in wire heat up
District, carries out hot and humid area with dry-heat air in lead-in wire thermal histories, discharges moisture content, and lead-in wire is dried, now, in housing cavity
Humidity increases, and when humidity rises and sets the upper limit, the automatic dehumidifying of humidity-discharging device, housing cavity humidity drops to again the shape of setting
State;Along with new wet lead-in wire enters, dry run is continuously carried out.Go between dried through heating zone, be translated to
Cooling zone, wire temperature reduces (lead-in wire mechanical property increases, and disconnected lead-in wire phenomenon reduces), is translated to lead outlet and leaves lead-in wire
Drying unit, this makes it possible to improve the quality of production and the efficiency that lead-in wire is dried, reduces labor intensity, strengthens security performance;Separately
Outward, the wet lead-in wire come from making line procedures, manually it is placed on wet lead frame, the actuating unit in lead-in wire drying unit leads
Drawing the lead-in wire import being entered lead-in wire drying unit by the first lead-in wire broken thread detector, the lead-in wire after drying dries dress through lead-in wire
The lead outlet put enters the second lead-in wire broken thread detector through spasm machine travel and arrives spasm machine, and dry lead-in wire is wrapped around running wheel
On, then by manually unloading running wheel, thus complete whole lead processing process.
Accompanying drawing explanation
Fig. 1 is the structural representation of the lead-in wire drying unit of the present invention;
Fig. 2 is the simplification figure of the inner core of the present invention;
Fig. 3 is the side schematic view of the inner core of the present invention;
Fig. 4 is the partial schematic diagram of the radial undulation mechanism of the present invention;
Fig. 5 is the structural representation of the lead processing equipment of the present invention;
Fig. 6 is the structural representation of the wet lead frame of the present invention;
Fig. 7 is the first lead-in wire broken thread detector or the structural representation of the second lead-in wire broken thread detector of the present invention;
Fig. 8 is the top view of Fig. 7;
Fig. 9 is the structural representation of spasm machine.
Detailed description of the invention
It is clearly understood to make present disclosure be easier to, below according to specific embodiment and combine accompanying drawing, right
The present invention is described in further detail.
As shown in figures 1-4, a kind of lead-in wire drying unit, it includes:
Housing, described housing has inner chamber, described housing is provided with all with lead-in wire import and the lead-in wire of intracavity inter-connection
Outlet;
Inner core 1, described inner core 1 is positioned at intracavity, and described inner core 1 can be rotated to support on housing, described inner core 1
On be provided with the multiple lead-in wire axial translation mechanism circumferentially along inner core, axially depending on along inner core 1 in described housing
Secondary being provided with heating zone 11 and cooling zone 12, the lead-in wire entered from lead-in wire import is first wound on described inner core 1 and lead-in wire axial translation
In mechanism;
Drive mechanism, described drive mechanism is in transmission connection with inner core 1, described drive mechanism also with multiple lead-in wire axial translations
Mechanism driving connects, in order to described drive mechanism drives inner core 1 to simultaneously drive multiple lead-in wire axial translation mechanism action when rotating,
Thus heating zone 11 and cooling zone will be moved to successively from the lead-in wire that lead-in wire import enters by multiple lead-in wire axial translation mechanism
12, then go between and go out from described lead outlet again;
Heat-source Cycles system, described heat-source Cycles system is connected with the heating zone 11 in housing, in order to described heat-source Cycles
System is to described heating zone 11 circulation-supplied thermal source;
Low-temperature receiver feeding mechanism, described low-temperature receiver feeding mechanism is connected with the cooling zone 12 in housing, in order to described low-temperature receiver supply
Device supplies low-temperature receiver to described cooling zone 12.
As it is shown in figure 1, described heat-source Cycles system includes heat pump heat distribution system 21 and circulating fan 22, in described inner core 1
It is provided with the air intake of hot-air channel 13 and return air channel 14, the air outlet of described heat pump heat distribution system 21 and described circulating fan 22
Mouth is connected, and the air outlet of described circulating fan 22 is connected with heating zone 11 by described hot-air channel 13, and described heat pump supplies
The air inlet of hot systems 21 is connected with described heating zone 11 by return air channel 14.In described heat-source Cycles system uses hot blast
The mode of circulation, reduces heat-energy losses, reaches energy-conservation purpose.
As it is shown in figure 1, described low-temperature receiver feeding mechanism is cooling blower 3, in described inner core 1, it is additionally provided with cooling wind passage
15, cooling blower 3 is placed in heat extractor air side air outlet (low temperature side) place of heat pump heat distribution system 21, in order to described cooling blower
The air inlet of 3 is used for extracting Cryogenic air, and the air outlet of described cooling blower 3 passes through cooling air channel 15 and described cooling zone 12 phase
Connection.
As shown in Fig. 1~2, described drive mechanism includes power source 41, and described inner core 1 is by the rotatable twelve Earthly Branches of rotary shaft 42
Holding on housing, described power source 41 is in transmission connection with described rotary shaft 42, in order to described power source 41 drives described rotary shaft
42 rotate on housing.Inner core 1 rotates under the driving of power source 41, draws wet lead-in wire simultaneously and successively enters in housing.
As shown in Figure 1, 2, described lead-in wire axial translation mechanism includes Timing Belt wheel set 51, gear pair 52 and sprocket wheel 53, institute
Stating axially arranged along inner core 1 of the Timing Belt in Timing Belt wheel set 51, described rotary shaft 42 is driven wherein by transmission component
The sprocket wheel 53 of one lead-in wire axial translation mechanism rotates, and the sprocket wheel 53 in each lead-in wire axial translation mechanism is by chain 54 transmission
Connecting, described sprocket wheel 53 is in transmission connection with the gear pair 52 in corresponding lead-in wire axial translation mechanism, described gear pair 52 and phase
The Timing Belt wheel set 51 answered is in transmission connection, thus finally drives Timing Belt moving axially along inner core 1.Lead-in wire axial translation machine
Structure is uniformly distributed along inner core 1 circumferencial direction is double, for lead-in wire from the lead-in wire import axial translation of housing to lead outlet, it is achieved
The most dry draw.
As shown in Figure 1, 2, described transmission component includes the first bevel gear pair 55, driven shaft 56 and the second bevel gear pair 57,
Described rotary shaft 42 is in transmission connection with the first bevel gear pair 55, and the first bevel gear pair 55 is in transmission connection with driven shaft 56, driven shaft
56 are in transmission connection with the second bevel gear pair 57, and the second bevel gear pair 57 passes with the sprocket wheel 53 of one of them lead-in wire axial translation mechanism
It is dynamically connected.When inner core 1 rotates, power passes sequentially through rotary shaft the 42, first bevel gear pair 55, driven shaft the 56, second bevel gear
Secondary 57, sprocket wheel 53 and gear pair 52, be ultimately transferred to Timing Belt wheel set 51, thus drives axial along inner core 1 of Timing Belt
Mobile.
As shown in Figure 4, also corresponding one of each lead-in wire axial translation mechanism drives the most reciprocal at inner core 1 of Timing Belt
The radial undulation mechanism of movement, described lead-in wire axial translation mechanism also includes the support wheels 58 for supporting Timing Belt, described
Radial undulation mechanism includes guide pillar seat 61, guide pillar 62, slide block 63, roller 64, curve ruler 65, spring mechanism 66 and pretension screw mandrel
67, described slide block 63 is connected with corresponding support wheels 58 by pretension screw mandrel 67, and described guide pillar seat 61 is arranged on inner core 1,
Described guide pillar 62 is arranged on guide pillar seat 61, and described slide block 63 is sliding to be fitted on guide pillar 62, and described curve ruler 65 is arranged on housing,
Described roller 64 is arranged on the outside of slide block 63, and described spring mechanism 66 is arranged on the inner side of described slide block 63 and described inner core 1
Between.Owing to lead-in wire is in dry run, it may appear that be adhered on Timing Belt, therefore be provided with radial undulation mechanism, the most each same
Step band can go up shifting afterwards along regular first the moving down of the radial direction of inner core 1, shortens the time of contact of lead-in wire and Timing Belt, to solve to draw
Line adhesion phenomenon.When inner core 1 rotates, roller 64 touches curve ruler 65, and roller 64 is led to inner core 1 axis edge by radial force
Post 62 glides, and the thrust receiving the most again spring mechanism 66 resets.Meanwhile, support wheels are also followed slide block 63 and are done " up and down " fluctuation
Shape.
As it is shown in figure 1, lead-in wire drying unit also includes that humidity-discharging device 71, described humidity-discharging device 7 are arranged on housing, and
The moisture exhausting port of humidity-discharging device 71 and the intracavity inter-connection of housing.Humidity-discharging device 71 is by groups such as wet-emitting blower, quick opening valve and pipelines
Become, for dehumidifying, keep the low humidified state of the inner chamber of housing.
As it is shown in figure 1, lead-in wire drying unit also includes that extinguishing device, described extinguishing device include that fire quickly responds spy
Head, control chamber and spray assemblies 72, described spray assemblies 72 is arranged on housing and is formed on the inwall of inner chamber, and described fire quickly rings
Should pop one's head in and be arranged in housing, described fire quickly responds the signal output part of probe and is connected with control chamber, described control chamber
Control drive end to be connected with described spray assemblies 72.This part independent operating, only provides fire alarm to complete machine control system, with
Meet quickly response purpose to shut down with instant.
Preheating zone, inner core and the multiple lead-in wire axial translations of being around in good order are entered from the lead-in wire import of lead-in wire drying unit
On the integral support of mechanism's composition, lead-in wire axial translation mechanism slowly shifts to heating zone lead-in wire, with dry in lead-in wire thermal histories
Scorching wind carries out hot and humid area, discharges moisture content, and lead-in wire is dried, and now, housing cavity humidity increases, and sets when humidity rises
When determining the upper limit, the automatic dehumidifying of humidity-discharging device, housing cavity humidity drops to again the state of setting;Along with new wet go between into
Entering, dry run is continuously carried out.Going between dried through heating zone, be translated to cooling zone, wire temperature reduces
(lead-in wire mechanical property increases, and disconnected lead-in wire phenomenon reduces), is translated and leaves lead-in wire drying unit to lead outlet, this makes it possible to
Improve the quality of production and efficiency that lead-in wire is dried, reduce labor intensity, strengthen security performance.
As shown in Fig. 5~9, a kind of lead processing equipment, it includes wet lead frame the 10, first lead-in wire broken thread detector
20, the second lead-in wire broken thread detector 30, spasm machine 40 and lead-in wire drying unit, described lead-in wire depends on the most afterwards from wet lead frame 10
Secondary pass through the first lead-in wire broken thread detector 20, lead-in wire drying unit, second lead-in wire broken thread detector 30, finally enter spasm
Machine 40.Wet lead frame the 10, first lead-in wire broken thread detector 20, lead-in wire drying unit, the second lead-in wire broken thread detector 30 and
Spasm machine 40, is spaced rational distance each other.
As shown in Figure 6, described wet lead frame 10 has wheel carrier 101, and described wheel carrier 101 is provided with rotatable rotating shaft
102, described rotating shaft 102 is provided with wire leading wheel 103, the power of wire leading wheel 103 is from the traction of lead-in wire drying unit.
As shown in Figure 6, it is provided with antivibrator 104 between described rotating shaft 102 and described wheel carrier 101.In dry run, by
In around drawing the reduction of diameter, pull strength is gradually increased, and increases wire breaking risk, therefore is configured with antivibrator 104, when pull strength adds
Time big, antivibrator 104 automatically reduces resistance, thus reduces lead-in wire pull strength.
As shown in Fig. 7~8, described first lead-in wire broken thread detector 20 and/or described second lead-in wire broken thread detector
30 include frame 201, go between into orifice 202, the orifice that goes between out 203, corrugated tube 204 and photoelectric sensor group 205, described lead-in wire
Enter orifice 202 and the described orifice 203 that goes between out be arranged in frame 201, the described orifice 202 that goes between is provided with go between into
Hole, the described orifice 203 that goes between out is provided with lead-in wire and portals, and described lead-in wire penetrates from lead-in wire hand-hole and is then passed through corresponding corrugated tube
204, finally from the corresponding extraction of portalling that goes between, photoelectric sensor group 205 is arranged in frame 201 and goes between into orifice 202 and draw
Line goes out the lower section in the region between orifice 203, in order to when there is disconnected lead-in wire, corrugated tube 204 falls, thus cuts off photoelectric sensing
Optical signal transmission between device group 205, i.e. realizes disconnected lead-in wire detection purpose.Then sound and light alarm is shut down and does according to default
Go out the action (time delay is shut down, immediately shuts down, continued to run with) of response.Go between into orifice 202 and go between out orifice 203 can be by porcelain
Make.
As it is shown in figure 9, described spasm machine 40 includes lead-in wire guiding device, draws clamp device, spasm frame and many group spasm groups
Part, described spasm assembly includes running wheel pedestal 401, spasm motor 402, position rotaring motor 403, and described running wheel pedestal 401 is arranged
Having two running wheel axles 405 being socketed running wheel 404 on it, described position rotaring motor 403 is connected with running wheel pedestal 404, in order to described
Position rotaring motor 403 drives described running wheel pedestal 401 to rotate, and makes two running wheel axles 405 draw at lead-in wire station and sky and cuts between station
Changing, described spasm motor 402 is in transmission connection with the running wheel axle 405 on lead-in wire station, in order to described spasm motor 402 drives lead-in wire
Running wheel axle 405 on station rotates, and lead-in wire guiding device includes guiding motor 406, guiding carrier 407 and screw pair 408, institute
Stating guiding motor 406 drives the leading screw in screw pair 408 to rotate, and the nut in described screw pair 408 is led with described
Drawing frame 407 to connect, described guiding carrier 407 is arranged in spasm frame, and described guiding carrier 407 can be parallel to running wheel axle
Move in the axially direction of 405, initially pass through guiding carrier 407 from described second lead-in wire broken thread detector 30 lead-in wire out,
Further around on the running wheel on the running wheel axle 405 being in lead-in wire station.During work, running wheel is fixed on running wheel axle 405, two running wheels
Axle 405 alternation, when the running wheel on the running wheel axle 405 going between station is full, spasm motor 402 stops, and position rotaring motor 403 opens
Dynamic, the running wheel axle 405 driving sky to draw station rotates to spasm position, and folder draws electric motor starting and opens and draw folder, and guiding carrier 407 will simultaneously
Lead-in wire moves to draw folder position, draws folder Guan Bi, and the side blade pressurized being simultaneously located at the full running wheel of deflection cuts off lead-in wire, spasm motor
402 start beginning spasm.
Guiding motor 406 and drive screw pair 408, thus Driving guide frame 407 moves, by guiding, motor 406 is positive and negative
Transfer and realize guiding carrier 407 and move left and right.Due to guide motor 406 select motor, so guiding carrier 407 can move to
Any given position, i.e. lead-in wire are movable to specify position.
Lead processing equipment also includes automatic control system, and automatic control system is by switch board, low-voltage electrical components and parts, intelligence
The portions such as energy temperature and humidity controller, PLC+HMI, sensor (Temperature Humidity Sensor, photoelectric sensor, limit switch etc.) and converter
Part forms.
Native system is configured with temperature-humidity sensor in housing, in real time temperature, humidity is monitored regulation, keeps
Reasonably baking temperature and humidity, prevent because of high temperature low humidity breaking out of fire;The power source of lead-in wire drying unit uses and drives motor
Configuration transducer drive.
The wet lead-in wire come from making line procedures, is manually placed on wet lead frame, by the power in lead-in wire drying unit
Mechanism is drawn through the first lead-in wire broken thread detector and enters the lead-in wire import of lead-in wire drying unit, and the lead-in wire after drying is through lead-in wire
The lead outlet of drying unit enters the second lead-in wire broken thread detector through spasm machine travel and arrives spasm machine, and dry lead-in wire is wrapped around
On running wheel, then by manually unloading running wheel, thus complete whole lead processing process.
Particular embodiments described above, to present invention solves the technical problem that, technical scheme and beneficial effect carry out
Further describe, be it should be understood that the specific embodiment that the foregoing is only the present invention, be not limited to this
Invention, all within the spirit and principles in the present invention, any modification, equivalent substitution and improvement etc. done, should be included in this
Within bright protection domain.
Claims (14)
1. a lead-in wire drying unit, it is characterised in that it includes:
Housing, described housing has inner chamber, described housing is provided with all with lead-in wire import and the lead outlet of intracavity inter-connection;
Inner core (1), described inner core (1) is positioned at intracavity, and described inner core (1) can be rotated to support on housing, described interior
The multiple lead-in wire axial translation mechanism circumferentially along inner core it is provided with, along inner core (1) in described housing on cylinder (1)
Axially be disposed with heating zone (11) and cooling zone (12), from lead-in wire import enter lead-in wire be first wound on described inner core (1) and
In lead-in wire axial translation mechanism;
Drive mechanism, described drive mechanism is in transmission connection with inner core (1), described drive mechanism also with multiple lead-in wire axial translation machines
Structure is in transmission connection, in order to described drive mechanism drives inner core (1) to simultaneously drive multiple lead-in wire axial translation mechanism action when rotating,
Thus heating zone (11) and cooling will be moved to successively from the lead-in wire that lead-in wire import enters by multiple lead-in wire axial translation mechanism
District (12), then goes between and goes out from described lead outlet;
Heat-source Cycles system, described heat-source Cycles system is connected with the heating zone (11) in housing, in order to described heat-source Cycles system
System is to described heating zone (11) circulation-supplied thermal source;
Low-temperature receiver feeding mechanism, described low-temperature receiver feeding mechanism is connected with the cooling zone (12) in housing, in order to described low-temperature receiver supply fills
Put and supply low-temperature receiver to described cooling zone (12).
Lead-in wire drying unit the most according to claim 1, it is characterised in that: described heat-source Cycles system includes heat pump heat supply
System (21) and circulating fan (22), be provided with hot-air channel (13) and return air channel (14), described heat pump in described inner core (1)
The air outlet of heating system (21) is connected with the air inlet of described circulating fan (22), the air outlet of described circulating fan (22)
Being connected with heating zone (11) by described hot-air channel (13), the air inlet of described heat pump heat distribution system (21) is led to by return air
Road (14) is connected with described heating zone (11).
Lead-in wire drying unit the most according to claim 1, it is characterised in that: described low-temperature receiver feeding mechanism is cooling blower
(3), being additionally provided with cooling wind passage (15) in described inner core (1), it is empty that the air inlet of described cooling blower (3) is used for extracting low temperature
Gas, the air outlet of described cooling blower (3) is connected with described cooling zone (12) by cooling air channel (15).
Lead-in wire drying unit the most according to claim 1, it is characterised in that: described drive mechanism includes power source (41),
Described inner core (1) can be rotated to support on housing by rotary shaft (42), described power source (41) and described rotary shaft (42)
It is in transmission connection, in order to described power source (41) drives described rotary shaft (42) to rotate on housing.
Lead-in wire drying unit the most according to claim 4, it is characterised in that: described lead-in wire axial translation mechanism includes synchronizing
Band wheel set (51), gear pair (52) and sprocket wheel (53), axial along inner core (1) of the Timing Belt in described Timing Belt wheel set (51)
Arranging, described rotary shaft (42) drives the sprocket wheel (53) of one of them lead-in wire axial translation mechanism to rotate, often by transmission component
Sprocket wheel (53) in individual lead-in wire axial translation mechanism is in transmission connection by chain (54), described sprocket wheel (53) and the corresponding axle that goes between
Gear pair (52) in translation mechanism is in transmission connection, and described gear pair (52) is with corresponding Timing Belt wheel set (51) transmission even
Connect, thus finally drive Timing Belt moving axially along inner core (1).
Lead-in wire drying unit the most according to claim 5, it is characterised in that: described transmission component includes the first bevel gear pair
(55), driven shaft (56) and the second bevel gear pair (57), described rotary shaft (42) is in transmission connection with the first bevel gear pair (55),
One bevel gear pair (55) is in transmission connection with driven shaft (56), and driven shaft (56) is in transmission connection with the second bevel gear pair (57), and second
Bevel gear pair (57) is in transmission connection with the sprocket wheel (53) of one of them lead-in wire axial translation mechanism.
Lead-in wire drying unit the most according to claim 5, it is characterised in that: each lead-in wire axial translation mechanism also correspondence one
Individual drive Timing Belt is in the radial undulation mechanism radially moved back and forth of inner core (1), and described lead-in wire axial translation mechanism also wraps
Including the support wheels (58) for supporting Timing Belt, described radial undulation mechanism includes guide pillar seat (61), guide pillar (62), slide block
(63), roller (64), curve ruler (65), spring mechanism (66) and pretension screw mandrel (67), described slide block (63) passes through pretension screw mandrel
(67) connecting with the corresponding wheels (58) that support, described guide pillar seat (61) is arranged on inner core (1), and described guide pillar (62) is arranged on
On guide pillar seat (61), described slide block (63) is sliding to be fitted on guide pillar (62), and described curve ruler (65) is arranged on housing, described roller
(64) being arranged on the outside of slide block (63), described spring mechanism (66) is arranged on the inner side of described slide block (63) and described inner core
(1) between.
Lead-in wire drying unit the most according to claim 5, it is characterised in that: also include humidity-discharging device (71), described dehumidifying
Device (7) is arranged on housing, and the intracavity inter-connection of the moisture exhausting port of humidity-discharging device (71) and housing.
Lead-in wire drying unit the most according to claim 1, it is characterised in that: also include extinguishing device, described extinguishing device
Quickly respond probe, control chamber and spray assemblies (72) including fire, described spray assemblies (72) is arranged on housing and forms inner chamber
Inwall on, described fire quickly responds probe and is arranged in housing, described fire quickly respond the signal output part of probe with
Control chamber is connected, and the control drive end of described control chamber is connected with described spray assemblies (72).
10. a lead processing equipment, it is characterised in that: it includes wet lead frame (10), the first lead-in wire broken thread detector
(20), the second lead-in wire broken thread detector (30), spasm machine (40) and the lead-in wire as according to any one of claim 1 to 8 dry
Equipment for drying, described lead-in wire passes sequentially through the first lead-in wire broken thread detector (20) the most afterwards from wet lead frame (10), lead-in wire is dried
Device, second lead-in wire broken thread detector (30), finally enter spasm machine (40).
11. lead processing equipment according to claim 10, it is characterised in that: described wet lead frame (10) has wheel carrier
(101), described wheel carrier (101) being provided with rotatable rotating shaft (102), described rotating shaft is provided with wire leading wheel on (102)
(103)。
12. lead processing equipment according to claim 11, it is characterised in that: described rotating shaft (102) and described wheel carrier
(101) antivibrator (104) it is provided with between.
13. lead processing equipment according to claim 10, it is characterised in that: described first lead-in wire broken thread detector
(20) and/or described second lead-in wire broken thread detector (30) include frame (201), go between into orifice (202), go between out orifice
(203), corrugated tube (204) and photoelectric sensor group (205), described go between into orifice (202) and the described orifice that goes between out (203)
It is arranged in frame (201), the described orifice that goes between (202) is provided with lead-in wire hand-hole, the described orifice that goes between out (203) sets
Being equipped with lead-in wire to portal, described lead-in wire penetrates from lead-in wire hand-hole and is then passed through corresponding corrugated tube (204), finally goes between out from accordingly
Hole is drawn, and photoelectric sensor group (205) is arranged in frame (201) and goes between orifice (202) and the orifice that goes between out (203)
The lower section in region, in order to when there is disconnected lead-in wire, corrugated tube (204) falls, thus cuts off between photoelectric sensor group (205)
Optical signal transmission.
14. lead processing equipment according to claim 10, it is characterised in that: described spasm machine (40) includes that lead-in wire guides
Device, drawing clamp device, spasm frame and many group spasm assemblies, described spasm assembly includes running wheel pedestal (401), spasm motor
(402), position rotaring motor (403), described running wheel pedestal (401) is provided with two running wheel axles being socketed running wheel (404) on it
(405), described position rotaring motor (403) is connected with running wheel pedestal (404), in order to draw described in described position rotaring motor (403) driving
Axle stand (401) rotates, and makes two running wheel axles (405) draw at lead-in wire station and sky and switches between station, described spasm motor
(402) it is in transmission connection with the running wheel axle (405) on lead-in wire station, in order to described spasm motor (402) drives on lead-in wire station
Running wheel axle (405) rotates, and lead-in wire guiding device includes guiding motor (406), guiding carrier (407) and screw pair (408), institute
State and guide motor (406) and drive the leading screw in screw pair (408) to rotate, the nut in described screw pair (408) with
Described guiding carrier (407) connects, and described guiding carrier (407) is arranged in spasm frame, and described guiding carrier (407) can be flat
Row moves in the axially direction of running wheel axle (405), from described second lead-in wire broken thread detector (30) lead-in wire out first
Through guiding carrier (407), further around on the running wheel on the running wheel axle (405) being in lead-in wire station.
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CN201610585073.0A CN106083502B (en) | 2016-07-22 | 2016-07-22 | Lead wire drying device and lead wire processing equipment applying same |
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CN201610585073.0A CN106083502B (en) | 2016-07-22 | 2016-07-22 | Lead wire drying device and lead wire processing equipment applying same |
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CN107131749A (en) * | 2017-06-02 | 2017-09-05 | 邓卫科 | A kind of transmitting device and drying device |
CN107449251A (en) * | 2017-09-14 | 2017-12-08 | 李丹 | A kind of lead drying plant |
CN108955410A (en) * | 2018-06-27 | 2018-12-07 | 长沙跃奇节能电气设备有限公司 | Lead guide mechanism and lead drying system |
CN110540485A (en) * | 2019-10-21 | 2019-12-06 | 湖南省浏阳市择明热工器材有限公司 | Production method of firework and firecracker yarn fuse |
CN110595291A (en) * | 2019-10-21 | 2019-12-20 | 湖南省浏阳市择明热工器材有限公司 | Integrated equipment is dried in preparation of fireworks and crackers yarn fuse |
CN113834306A (en) * | 2021-10-19 | 2021-12-24 | 南通创韦伦纺织科技有限公司 | Cloth drying equipment integrating variable brush roller and drying cylinder |
CN114184031A (en) * | 2021-12-28 | 2022-03-15 | 长沙跃奇节能电气设备有限公司 | Small-size individual layer lead wire drying-machine |
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CN113834306A (en) * | 2021-10-19 | 2021-12-24 | 南通创韦伦纺织科技有限公司 | Cloth drying equipment integrating variable brush roller and drying cylinder |
CN114184031A (en) * | 2021-12-28 | 2022-03-15 | 长沙跃奇节能电气设备有限公司 | Small-size individual layer lead wire drying-machine |
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