CN206976161U - A kind of inductance core integrally forming machine - Google Patents
A kind of inductance core integrally forming machine Download PDFInfo
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- CN206976161U CN206976161U CN201720904933.2U CN201720904933U CN206976161U CN 206976161 U CN206976161 U CN 206976161U CN 201720904933 U CN201720904933 U CN 201720904933U CN 206976161 U CN206976161 U CN 206976161U
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- caster
- inductance core
- feeding
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Abstract
The utility model discloses a kind of inductance core integrally forming machine.The inductance core integrally forming machine includes pedestal frame, feeding travel mechanism, hopper, storage material box, caster, Shang Ya travel mechanisms, suction rotating mechanism, vertically movable mechanism, transverse moving mechanism, pushes travel mechanism and blade cut mechanism.The utility model is delivered to powder in the die cavity of caster using feeding travel mechanism, then in Shang Ya travel mechanisms and push travel mechanism be squeezed into magnetic core raw embryo, then magnetic core raw embryo is grabbed to the Working position specified using suction rotating mechanism, machining is carried out by blade cut mechanism, inductance core forming and cutting integration is realized to make, the defects of completing to carry out machining again afterwards will be molded by inductance core by the gross in the prior art by changing, so as to substantially reduce the process-cycle of product, processing efficiency is improved;And because shaping and cutting are completed in an equipment, floor space is substantially reduced, reduces its production cost.
Description
Technical field
Inductance core manufacturing machine technical field is the utility model is related to, more specifically to a kind of inductance core one
Body forming machine.
Background technology
In traditional inductance core manufacturing process, generally require first by powder pressing or be fused into inductance core half into
Product, then again by inductance core semi-finished product be manually transported in another equipment carry out machining be processed into inductance core into
Product;From inductance core semi-finished product into the process of inductance core finished product, it is necessary to take some time, manpower and material resources
Article is transported on cutter from forming machine, this mode of production manually carried can cause the production efficiency phase of inductance core
To low.
Practical content
In view of this, the utility model provides a kind of inductance core integrally forming machine, and solution needs people in the prior art
Work carries the defects of inductance core semi-finished product are processed to cutter.
To achieve the above object, the utility model provides following technical scheme:
A kind of inductance core integrally forming machine;Wherein, the inductance core integrally forming machine includes pedestal frame, feeding movement
Mechanism, hopper, storage material box, caster, Shang Ya travel mechanisms, suction rotating mechanism, vertically movable mechanism, transverse moving mechanism,
Push travel mechanism and blade cut mechanism;Wherein, the travel mechanism that pushes is fixed on the pedestal frame;The master mold
Plate is fixed on described push on the mobile terminal of travel mechanism;The top down spill of the caster is into hollow molded cavity;The storage
Magazine transverse shifting is set in the top of the caster, which is provided with import, and its bottom is provided with outlet;The hopper is vertically solid
It is scheduled on pedestal frame and positioned at the top of the storage material box, the inlet communication of its discharging opening and the storage material box;The feeding moves
Motivation structure is secured transverse on the pedestal frame, and its mobile terminal is connected with the storage material box and drives the storage material box in caster
On slide laterally;The Shang Ya travel mechanisms are vertically fixed on pedestal frame and drive its mobile terminal in the top of the caster
Slide vertically and compress the caster;The transverse moving mechanism is secured transverse on the pedestal frame, the vertically movable machine
Structure is fixed on the mobile terminal of the transverse moving mechanism, and the suction rotating mechanism is fixed on the shifting of the vertically movable mechanism
On moved end and positioned at the top of the caster;The blade cut mechanism is fixed on the pedestal frame and is located at the suction
The lower section of rotating mechanism.
Preferably, the Shang Ya travel mechanisms include Medium-voltage Motor, upper compression filament bar, cope plate and upper pressure guide pillar;Wherein,
The upper pressure guide pillar is vertically fixed on the pedestal frame;The upper Medium-voltage Motor is fixed on the pedestal frame;The cope plate
Slide vertically and be set on the upper pressure guide pillar;Described upper compression filament bar one end is connected with the upper Medium-voltage Motor, its other end
It is threadedly coupled with the cope plate.
Preferably, this pushes travel mechanism and includes fixed mount, pushes screw mandrel, lower piezoelectric machine and push rod;It is described to push
Motor is fixed on the pedestal frame;The fixed mount, which slides vertically, to be set on the upper pressure guide pillar;The caster is fixed
In the upper end of the fixed mount;The push rod is fixed on the pedestal frame and positioned at the lower section of the caster hollow molded cavity;
The described screw mandrel one end that pushes is connected with the lower piezoelectric machine, and its other end is threadedly coupled with the fixed mount.
Preferably, the feeding travel mechanism includes feeding motor, feeding screw mandrel, material feeding seat and feeding guide;It is described
Feeding guide is fixed on the pedestal frame;The feeding motor is fixed on the pedestal frame;The material feeding seat slides laterally
It is set on the feeding guide;One end of the feeding screw mandrel and the feeding motor are connected, its other end with it is described
Material feeding seat is threadedly coupled;The storage material box is fixedly connected with the material feeding seat.
Preferably, the transverse moving mechanism includes cross motor, cross lead screw, cross slide way and horizontal pedestal;Institute
State cross slide way to be fixed on the pedestal frame, the cross motor is fixed on the pedestal frame, and the horizontal pedestal slides
It is arranged on the cross slide way;Described cross lead screw one end is connected with the cross motor, its other end and the horizontal stroke
Connected to base thread;The vertically movable mechanism is fixed on the horizontal pedestal.
Preferably, the vertically movable mechanism includes vertical motor, vertical screw mandrel and vertical guide pillar;The vertical guide pillar
One end is vertically fixed on the mobile terminal of the transverse moving mechanism, the fixed vertical motor of its other end;The suction
Rotating mechanism is slidably located on the vertical guide pillar;One end of the vertical screw mandrel and the main shaft of the vertical motor are driven
Connection, its other end are threadedly coupled with the suction rotating mechanism.
Preferably, the suction rotating mechanism includes suction support frame, suction electric rotating machine, vacuum tube and hollow suction
Bar;The suction support frame is slidably located on the mobile terminal of the vertically movable mechanism;The hollow suction bar, which rotates, to be set
On the suction support frame, one end of the vacuum tube at the top of hollow suction bar with connecting, its other end and external vacuum machine
Connection, the suction electric rotating machine are fixed on the suction support frame and are connected with the hollow suction bar.
Preferably, the blade cut mechanism includes blade, support bar and cutting blade motor;Wherein, the support bar erects
It is fixed on to rotation on the pedestal frame, the blade is fixed on the upper end of the support bar;The cutting blade motor is fixed on institute
State on pedestal frame and the lower end for the support bar that is connected.
Preferably, the top down spill of the caster is into avoiding hollow groove;The avoiding hollow groove is located at storage material box outlet
Lower section.
Preferably, the inductance core integrally forming machine also includes pressure sensor and controller;The pressure sensor
Pushed described in being fixed on the mobile terminal of travel mechanism and its control terminal is electrically connected with the controller;The controller is consolidated
Be scheduled on pedestal frame and respectively with the Shang Ya travel mechanisms, suction rotating mechanism, vertically movable mechanism, transverse moving mechanism with
And push the control terminal electric connection of travel mechanism.
It can be seen from the above technical scheme that the utility model novelty simple in construction;Because hopper is vertically fixed on base
On mounting and positioned at the top of the storage material box, the inlet communication of its discharging opening and the storage material box, so as to by hopper by powder
Material is discharged into storage material box;It is fixed on due to storage material box on the mobile terminal of the feeding travel mechanism, so as to be moved by feeding
Mechanism drives storage material box transverse shifting and places powder by the die cavity of the port of export in storage material cassette bottom portion into caster, so as to real
The purpose of existing self-feeding;Because the outlet of storage material box is arranged on bottom, when the port of export of storage material box is moved to the type of caster
Be during chamber releasable powder into die cavity, can not then discharge powder when the port of export of storage material box is not in the surface of caster die cavity
Material, ensure that powder will not excessively fill loose powder material because out of control, and can control it by the port of export size of storage material box
Discharge quantity, reduce its difficulty for controlling discharge quantity;And Shang Ya travel mechanisms will not be hindered using this moving feeding mode
With push the relatively movable of travel mechanism, so as to improve the feeding efficiency of the inductance core integrally forming machine;Then in upper pressure
Magnetic core semi-finished product are squeezed under travel mechanism and the interaction for pushing travel mechanism;Then suction rotating mechanism is utilized by magnetic core
Semi-finished product crawl is left in the die cavity of caster;Then by transverse moving mechanism and vertically movable mechanism, so as to control suction
Rotating mechanism is by inductance core semi-finished product from inductance core shaping area automatic transporting to inductance core cutting region;Then in blade
In the presence of cutting mechanism, the machining to inductance core semi-finished product is completed, is removed automatically so as to complete inductance core semi-finished product
Fortune cuts into the function of inductance core finished product;Shaping-cutting the integration for realizing inductance core makes, and changes in the prior art
The defects of form forming magnetic core carries out machining again after completing by the gross is incited somebody to action, so as to shorten the process-cycle of product, improves and adds
Work efficiency rate;Because the shaping and cutting of magnetic core are completed in an equipment, floor space is reduced, is produced into so as to reduce it
This.
Brief description of the drawings
Fig. 1 is a kind of overall structure diagram for inductance core integrally forming machine that the utility model embodiment provides.
Fig. 2 is structure enlargement diagram at A in Fig. 1.
Fig. 3 is structure enlargement diagram at B in Fig. 1.
Fig. 4 is a kind of part-structure schematic diagram for inductance core integrally forming machine that the utility model embodiment provides.
Fig. 5 is a kind of part-structure schematic diagram for inductance core integrally forming machine that the utility model embodiment provides.
Accompanying drawing identifier declaration:
10- pedestal framves;20- feedings travel mechanism;30- hoppers;40- Shang Ya travel mechanisms;50- suction rotating mechanisms;60-
Vertically movable mechanism;70- transverse moving mechanisms;80- blade cuts mechanism;90- pushes travel mechanism;21- feeding motors;22-
Feeding screw mandrel;23- material feeding seats;24- feeding guides;31- storage material boxes;32- cylinders;The upper Medium-voltage Motors of 41-;42- upper compression filament bars;43-
Cope plate;Guide pillar is pressed on 44-;51- suction support frames;52- suction electric rotating machines;53- vacuum tubes;The hollow suction bars of 54-;55-
Passage;The vertical guide pillars of 61-;The vertical screw mandrels of 62-;The vertical motors of 63-;71- transverse direction pedestals;72- cross lead screws;73- is laterally electric
Machine;74- cross slide ways;81- blades;82- support bars;83- cutting blade motors;91- casters;92- pushes screw mandrel;93- lower piezoelectrics
Machine;94- push rods;95- fixed mounts;911- avoiding hollow grooves.
, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art
Or the accompanying drawing described in description of the prior art is briefly described, it is therefore apparent that the accompanying drawing in description below is only this reality
With some new embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, may be used also
To obtain other accompanying drawings according to these accompanying drawings.
Embodiment
The utility model embodiment provides a kind of inductance core integrally forming machine.
As shown in accompanying drawing 1-5, a kind of inductance core integrally forming machine;Wherein, the inductance core integrally forming machine includes
Pedestal frame 10, feeding travel mechanism 20, hopper 30, storage material box 31, caster 91, Shang Ya travel mechanisms 40, suction rotating mechanism
50th, vertically movable mechanism 60, transverse moving mechanism 70, push travel mechanism 90 and blade cut mechanism 80;Wherein, under described
Pressure travel mechanism 90 is fixed on the pedestal frame 10;The caster 91 is fixed on the mobile terminal for pushing travel mechanism 90
On;The top down spill of the caster 91 is into hollow molded cavity;The transverse shifting of storage material box 31 is set in the caster
91 top, which is provided with import, and its bottom is provided with outlet;The hopper 30 is vertically fixed on pedestal frame 10 and positioned at described
The top of storage material box 31, the inlet communication of its discharging opening and the storage material box 31;The feeding travel mechanism 20 is secured transverse to
On the pedestal frame 10, its mobile terminal is connected with the storage material box 31 and drives the storage material box 31 laterally to be slided on caster 91
It is dynamic;The Shang Ya travel mechanisms 40 are vertically fixed on pedestal frame 10 and drive its mobile terminal to be erected in the top of the caster 91
The caster 91 is compressed to sliding;The transverse moving mechanism 70 is secured transverse on the pedestal frame 10, the vertical shifting
Motivation structure 60 is fixed on the mobile terminal of the transverse moving mechanism 70, and the suction rotating mechanism 50 is fixed on the vertical shifting
On the mobile terminal of motivation structure 60 and positioned at the top of the caster 91;The blade cut mechanism 80 is fixed on the pedestal frame
On 10 and positioned at the lower section of the suction rotating mechanism 50.The utility model novelty simple in construction;The feeding travel mechanism 20
The storage material box 31 is promoted to be moved along, hollow molded cavity filling powder of the storage material box 31 to caster 91;Upper pressure moving machine
Structure 40 drives the male template on its mobile terminal to be slid vertically in the top of the caster 91 and compresses the caster 91;Under described
Pressure travel mechanism 90 drives the caster 91 on its mobile terminal to slide the inductance core semi-finished product disengaging master mold straight down
The hollow molded cavity of plate 91;The transverse moving mechanism 70 drives the vertically movable mechanism 60 on its mobile terminal laterally to slide into the mother
The top of template 91;The vertically movable mechanism 60 drives the suction rotating mechanism 50 on its mobile terminal vertically to slide into the master mold
On plate 91;The suction rotating mechanism 50 holds inductance core semi-finished product out of caster to be taken away;The vertically movable mechanism
60 driving its mobile terminal on suction rotating mechanism 50 slip away straight up the caster 91 vertical direction and be moved to institute
State the top of blade cut mechanism 80;The transverse moving mechanism 70 drives the vertically movable mechanism 60 on its mobile terminal laterally sliding
From the caster 91 horizontal direction and be moved in the blade cut mechanism 80;The blade cut mechanism 80 is to inductance
Magnetic core semi-finished product carry out machining processing;The suction rotating mechanism 50 discharges the inductance core finished product after machining processing
Into inductance core collector.Because hopper 30 is vertically fixed on pedestal frame 10 and is located at the top of the storage material box 31, its
The inlet communication of discharging opening and the storage material box 31, so as to which powder is discharged into storage material box 31 by hopper 30;Due to storage material
Box 31 is fixed on the mobile terminal of the feeding travel mechanism 20, so as to drive storage material box 31 laterally by feeding travel mechanism 20
Move through die cavity of the port of export of the bottom of storage material box 31 into caster 91 and place powder, so as to realize the mesh of self-feeding
's;Because the outlet of storage material box 31 is arranged on bottom, when the port of export of storage material box 31 is moved to the die cavity of caster 91
Powder is discharged into die cavity, can not then discharge powder when the port of export of storage material box 31 is not in the surface of the die cavity of caster 91,
It ensure that powder will not excessively fill loose powder material because out of control, and can be controlled by the port of export size of storage material box 31 under it
Doses, reduce its difficulty for controlling discharge quantity;And Shang Ya travel mechanisms 40 will not be hindered using this moving feeding mode
With push the relatively movable of travel mechanism 90, so as to improve the feeding efficiency of the inductance core integrally forming machine;Then upper
Magnetic core semi-finished product are squeezed under pressure travel mechanism 40 and the interaction for pushing travel mechanism 90;Then suction rotating mechanism is utilized
50 leave the crawl of magnetic core semi-finished product in the die cavity of caster 91;Then transverse moving mechanism 70 and vertically movable mechanism are passed through
60, so as to control suction rotating mechanism 50 to cut inductance core semi-finished product to inductance core from inductance core shaping area automatic transporting
Cut in area;Then in the presence of blade cut mechanism 80, the machining to inductance core semi-finished product is completed, so as to complete electricity
Sense magnetic core semi-finished product automatic transporting cuts into the function of inductance core finished product;Realize form forming magnetic core-cutting integration to make, change
Become in the prior art will the defects of carrying out machining again after form forming magnetic core is completed by the gross, so as to shorten the processing of product week
Phase, improve processing efficiency;Because the shaping and cutting of magnetic core are completed in an equipment, floor space is reduced, so as to drop
Its low production cost.
It is apparent that the utility model embodiment also has such a configuration:A kind of inductance core integrally forming machine;Wherein,
The inductance core integrally forming machine include pedestal frame 10, feeding travel mechanism 20, hopper 30, storage material box 31, caster 91, on
Press travel mechanism 40, suction rotating mechanism 50, vertically movable mechanism 60, transverse moving mechanism 70 and push travel mechanism 90;
Wherein, the travel mechanism 90 that pushes is fixed on the pedestal frame 10;The caster 91 pushes moving machine described in being fixed on
On the mobile terminal of structure 90;The top down spill of the caster 91 is into hollow molded cavity;The transverse shifting of storage material box 31 is arranged
At the top of the caster 91, import is which is provided with, its bottom is provided with outlet;The hopper 30 is vertically fixed on pedestal frame 10
Go up and be located at the top of the storage material box 31, the inlet communication of its discharging opening and the storage material box 31;The feeding travel mechanism
20 are secured transverse on the pedestal frame 10, and its mobile terminal is connected with the storage material box 31 and drives the storage material box 31 in master mold
Slid laterally on plate 91;The Shang Ya travel mechanisms 40 are vertically fixed on pedestal frame 10 and drive its mobile terminal in the master mold
The top of plate 91, which slides vertically, compresses the caster 91;The transverse moving mechanism 70 is secured transverse to the pedestal frame 10
On, the vertically movable mechanism 60 is fixed on the mobile terminal of the transverse moving mechanism 70, and the suction rotating mechanism 50 is solid
It is scheduled on the mobile terminal of the vertically movable mechanism 60 and positioned at the top of the caster 91.Its motion process is;It is described to send
Material travel mechanism 20 promotes the storage material box 31 to be moved along, and the storage material box 31 fills powder to the hollow molded cavity of caster 91
Material;Shang Ya travel mechanisms 40 drive the male template on its mobile terminal to be slid vertically in the top of the caster 91 and compress the mother
Template 91;The travel mechanism 90 that pushes drives the caster 91 on its mobile terminal to slide inductance core straight down into pint
From the hollow molded cavity of the caster 91;The transverse moving mechanism 70 drives the vertically movable mechanism 60 on its mobile terminal horizontal
Slide into the top of the caster 91;The vertically movable mechanism 60 drives the suction rotating mechanism 50 on its mobile terminal vertically to slide
Onto the caster 91;The suction rotating mechanism 50 holds inductance core finished product out of caster to be taken away;It is described vertical
Travel mechanism 60 drive its mobile terminal on suction rotating mechanism 50 slip away straight up the caster 91 vertical direction simultaneously
It is moved to the top of inductance core collector;The transverse moving mechanism 70 drives the vertically movable mechanism 60 on its mobile terminal horizontal
Horizontal direction to the caster 91 that slips away simultaneously is moved on the inductance core collector;The suction rotating mechanism 50 is released
The inductance core finished product after machining processing is put into inductance core collector.
In addition, the purpose of the suction rotating mechanism 50 is from inductance core shaping area automatic transporting by inductance core semi-finished product
Onto inductance core cutting region;And vertically movable mechanism 60 and the purpose of transverse moving mechanism 70 are to drive suction rotating mechanism 50
It is movable between inductance core shaping area and inductance core cutting region, it can be seen that, as long as the suction rotating mechanism 50 can be smoothly
The freely activity between inductance core shaping area and inductance core cutting region, a variety of driving suction rotating mechanisms can be used
50 mode, the 50 direct axle of suction rotating mechanism can be such as located on pedestal frame 10, then drive the suction rotating mechanism 50
The freely activity between inductance core shaping area and inductance core cutting region;The utility model embodiment only shows the utility model
The suction rotating mechanism 50 a kind of preferred embodiment movable between inductance core shaping area and inductance core cutting region in intention,
As long as in fact, it can realize that the suction rotating mechanism 50 is movable between inductance core shaping area and inductance core cutting region,
Belong to and realize a kind of embodiment of the present utility model.
Specifically, the Shang Ya travel mechanisms 40 include Medium-voltage Motor 41, upper compression filament bar 42, cope plate 43 and upper pressure and led
Post 44;Wherein, the upper pressure guide pillar 44 is vertically fixed on the pedestal frame 10;The upper Medium-voltage Motor 41 is fixed on the pedestal
On frame 10;The cope plate 43, which slides vertically, to be set on the upper pressure guide pillar 44;Described one end of upper compression filament bar 42 with it is described on
Medium-voltage Motor 41 is connected, and its other end is threadedly coupled with the cope plate 43.The purpose of the Shang Ya travel mechanisms 40 is to drive
Cope plate 43 does vertical activity along upper pressure guide pillar 44 and powder formation inductance core semi-finished product is extruded into caster 91;Do not changing
On the premise of becoming its purpose, the kind of drive of the Shang Ya travel mechanisms 40 can also use cylinder type of drive, belt transmission side
Formula or the runner kind of drive.Its motion process is:Because cope plate 43 is slidably located on upper pressure guide pillar 44, upper Medium-voltage Motor passes through
Upper compression filament bar 42 is connected the cope plate 43;The upper Medium-voltage Motor 41 is operated, and cope plate is driven by upper compression filament bar 42
43 slide vertically along upper pressure guide pillar 44, so that cope plate 43 can compress caster 91 or sail out of caster 91, realize
The cope plate 43 and the purpose of the relative motion of caster 91.
Preferably, this pushes travel mechanism 90 and includes fixed mount 95, pushes screw mandrel 92, lower piezoelectric machine 93 and push rod
94;The lower piezoelectric machine 93 is fixed on the pedestal frame 10;The fixed mount 95, which slides vertically, is set in the upper pressure guide pillar
On 44;The caster 91 is fixed on the upper end of the fixed mount 95;The push rod 94 is fixed on the pedestal frame 10 and position
In the lower section of the hollow molded cavity of caster 91;The described one end of screw mandrel 92 that pushes is connected with the lower piezoelectric machine 93, and its is another
One end is threadedly coupled with the fixed mount 95.Its motion process is:Due to caster 91 be slidably located in it is described it is upper pressure guide pillar 44
On, lower piezoelectric machine 93 is connected the caster 91 by pushing screw mandrel 92;The lower piezoelectric machine 93 operates, by pushing
Screw mandrel 92 drive caster 91 along it is upper pressure guide pillar 44 slide vertically, and push rod 94 is fixed on the pedestal frame 10 and be located at and
Through the lower section of the hollow molded cavity of caster 91, after caster 91 down slides, push rod 94 can be by the caster 91
Inductance core ejection in hollow molded cavity departs from the die cavity of caster 91, so as to realize the purpose of de- material.This pushes moving machine
The purpose of structure 90 is to drive caster 91 to do vertical activity along upper pressure guide pillar 44 so as to which inductance core semi-finished product are exited into die cavity;
On the premise of its purpose is not changed, the kind of drive for pushing travel mechanism 90 can also use cylinder type of drive, belt
The kind of drive or the runner kind of drive.Because push rod 94 is fixed on the pedestal frame 10 and is located at the hollow type of caster 91
The lower section of chamber, when pushing travel mechanism 90 and driving caster 91 movable downwards, push rod 94 can be extend into die cavity, so as to by electricity
Sense magnetic core semi-finished product eject from the die cavity of caster 91.
Preferably, the feeding travel mechanism 20 includes feeding motor 21, feeding screw mandrel 22, material feeding seat 23 and feeding and led
Rail 24;The feeding guide 24 is fixed on the pedestal frame 10;The feeding motor 21 is fixed on the pedestal frame 10;Institute
State material feeding seat 23 and slide laterally and be set on the feeding guide 24;One end of the feeding screw mandrel 22 and the feeding motor 21
Drive connection, its other end are threadedly coupled with the material feeding seat 23;The material feeding seat 23 is fixedly connected the storage material box 31.Should
The purpose of feeding travel mechanism 20 is that the driving storage material box 31 is slid laterally on caster 91 to the die cavity of caster 91
And it is the cavity filling powder of caster 91;On the premise of its purpose is not changed, the kind of drive of the feeding travel mechanism 20 is also
Cylinder type of drive, belt transmissioning mode or the runner kind of drive can be used.Its motion process is:Due to the material feeding seat 23
It is fixedly connected by connecting rod with the feeding motor 21, the telescopic shaft of cylinder is used to compress the storage material with the connecting rod hingedly connected
Box 31, feeding motor 21 are connected the material feeding seat 23 by feeding screw mandrel 22;The feeding motor 21 operates, by sending
Material screw mandrel 22 drives material feeding seat 23 to be slid laterally along feeding guide 24, so as to drive the storage material box 31 along the caster
91 slide laterally, and are the hollow molded cavity filling powder of caster 91, realize the purpose of self-feeding.
Preferably, the transverse moving mechanism 70 includes cross motor 73, cross lead screw 72, cross slide way 74 and transverse direction
Pedestal 71;The cross slide way 74 is fixed on the pedestal frame, and the cross motor 73 is fixed on the pedestal frame 10, institute
Horizontal pedestal 71 is stated to be slidably arranged on the cross slide way 74;Described one end of cross lead screw 72 is driven with the cross motor 73
Connection, its other end are threadedly coupled with the horizontal pedestal 71;The horizontal pedestal 71 is fixedly connected the vertically movable machine
Structure 60.The purpose of the transverse moving mechanism 70 is that the driving vertically movable mechanism 60 slides laterally on cross slide way 74;
On the premise of not changing its purpose, the kind of drive of the transverse moving mechanism 70 can also use cylinder type of drive, belt to pass
Flowing mode or the runner kind of drive.Its motion process is:Because the horizontal slip cap of pedestal 71 is located at the cross slide way 74
On, the vertically movable mechanism 60 is fixed on the horizontal pedestal 71, and the horizontal pedestal 71 passes through cross lead screw 72 and institute
Cross motor 73 is stated to be connected;The cross motor 73 is operated, and horizontal pedestal 71 is driven along transverse direction by cross lead screw 72
Guide rail 74 slides laterally, and so as to drive the vertically movable mechanism 60 to be slid laterally along the cross slide way 74, realizes driving
The purpose of vertically movable mechanism 60 and the transverse shifting of suction rotating mechanism 50 on the vertically movable mobile terminal of mechanism 60.
Preferably, the vertically movable mechanism 60 includes vertical motor 63, vertical screw mandrel 62 and vertical guide pillar 61;It is described
Vertical one end of guide pillar 61 is vertically fixed on the horizontal pedestal 71, the fixed vertical motor 63 of its other end;The suction
Material rotating mechanism 50 is slidably located on the vertical guide pillar 61;One end of the vertical screw mandrel 62 and the vertical motor 63
Main shaft is connected, and its other end is threadedly coupled with the suction rotating mechanism 50.The purpose of the vertically movable mechanism 60 is
The suction rotating mechanism 50 is driven to be slid vertically on vertical guide pillar 61;On the premise of its purpose is not changed, the vertical shifting
The kind of drive of motivation structure 60 can also use cylinder type of drive, belt transmissioning mode or the runner kind of drive, and described
The fixed position of vertical motor 63 changes with the difference of the kind of drive.Its motion process is:Due to the suction whirler
For structure 50 by the slip cap of suction support frame 51 on the vertical guide pillar 61, the suction support frame 51 passes through vertical screw mandrel 62
It is connected with the vertical motor 63;The vertical motor 63 is operated, and the edge of suction support frame 51 is driven by vertical screw mandrel 62
The vertical guide pillar 61 to slide vertically, so as to drive the suction rotating mechanism 50 vertically to be slided along the vertical guide pillar 61
It is dynamic, realize the vertically movable purpose of driving suction rotating mechanism 50.
Preferably, the suction rotating mechanism 50 include suction support frame 51, suction electric rotating machine 52, vacuum tube 53 and
Hollow suction bar 54;The suction support frame 51 is slidably located on vertical guide pillar 61;The hollow suction bar 54, which rotates, to be set
On the suction support frame 51, one end of the vacuum tube 53 connects with the hollow top of suction bar 54, its other end and outside
Vacuum machine connects, and the suction electric rotating machine 52 is fixed on the suction support frame 51 and is driven with the hollow suction bar 54
Connection.The purpose of the suction rotating mechanism 50 be on the one hand be by vacuum tube 53 and hollow suction bar 54 by inductance core half into
Product capture out of inductance core shaping area, are on the other hand to drive inductance core semi-finished product to do by suction electric rotating machine 52 to rotate
Activity, so as to facilitate blade cut mechanism 80 to do multi-angle machining to inductance core semi-finished product;As can be seen here, if inductance magnetic
When core semi-finished product need not carry out multi-angle working process, the suction electric rotating machine 52 can remove, i.e. the suction rotating mechanism 50
Suction support frame 51, vacuum tube 53 and hollow suction bar 54 can be included;The suction support frame 51 is slidably located in perpendicular
To on guide pillar 61;The hollow suction bar 54 is fixed on the suction support frame 51, one end of the vacuum tube 53 with it is hollow
The top of suction bar 54 connects, and its other end connects with external vacuum machine.Also, on the premise of its purpose is not changed, the suction
Suction electric rotating machine 52 and the kind of drive of hollow suction bar 54 can also use cylinder type of drive, belt in rotating mechanism 50
The kind of drive or the runner kind of drive.Its motion process is:The suction is rotatably arranged on because hollow suction bar 54 vertically runs through
Expect on support frame 51, the inside that the upper end of the therefrom empty suction bar 54 of vacuum tube 53 protrudes into hollow suction bar 54 is used for vacsorb
Inductance core after shaping, using traditional belt transmissioning mode, suction electric rotating machine 52 is connected by belt and runner
The upper end of the hollow suction bar 54, when the suction rotating mechanism 50 is in the transverse shifting of transverse moving mechanism 70 and vertical
Under the vertically movable assistance of travel mechanism 60, material is sucked away from caster 91 using vacuum tube 53 and is transported to blade cut mechanism
At 80;When needing to carry out the processing of multi-angle machining to inductance core semi-finished product, the suction electric rotating machine 52 operates, and leads to
Cross belt and the hollow suction bar 54 of driven by rotating wheel does rotary moveable, and inductance core semi-finished product are to be fixed on middle suction by vacuum
In the lower port for expecting bar, so as to which inductance core semi-finished product also do rotary moveable therewith, in the cutting element of blade cut mechanism 80
Effect is lower to realize the purpose that inductance core semi-finished product are carried out with machining processing;The effect of the suction electric rotating machine 52 is on the one hand
It is to drive inductance core to do rotary moveable to be easy to carry out multi-angle working process to inductance core, is on the other hand to improve inductance magnetic
The machining efficiency of core, when the processing of multi-angle machining need not be carried out to inductance core semi-finished product, suction rotation
Mechanism 50 can also have such a configuration:The suction rotating mechanism 50 include suction support frame 51, vacuum tube 53 and in
Empty suction bar 54;Directly hollow suction bar 54 is fixed on suction support frame 51, material is sucked away from master mold using vacuum tube 53
Plate 91 is simultaneously transported at blade cut mechanism 80.
Preferably, the blade cut mechanism 80 includes blade 81, support bar 82 and cutting blade motor 83;Wherein, it is described
The vertical rotating of support bar 82 is fixed on the pedestal frame 10, and the blade 81 is fixed on the upper end of the support bar 82;It is described
Cutting blade motor 83 is fixed on the pedestal frame 10 and the lower end for the support bar 82 that is connected.Its motion process is:By
In support bar 82 vertically through being rotatably arranged on the pedestal frame 10, cutting blade motor 83 is fixed on the lower end of the pedestal frame 10
Face, using traditional belt transmissioning mode, cutting blade motor 83 is connected under the support bar 82 by belt and runner
End;The cutting blade motor 83 is operated, and rotary moveable is done by belt and driven by rotating wheel support bar 82, and the blade 81 is fixed on
The upper end of the support bar 82, so as to which blade 81 also does rotary moveable therewith, realized under the shear action of blade 81 to inductance
Magnetic core semi-finished product carry out the purpose of machining processing;In the present embodiment, the support bar 82 includes fixed support bar, rotation
Turn support bar and be arranged the bearer ring for being fixed on the fixation support bar inwall, fixed support bar be used for fixed protection bearer ring and
Rotation support bar is not damaged, and bearer ring is used for the rotation efficiency for improving rotation support bar;The rotation support bar is using traditional
Bearing rotary mode is set in the inner ring of the bearer ring, and the outer shroud of bearer ring is then fixed on the inwall of the fixation support bar
On, the outer wall of the fixation support bar is fixed on pedestal frame 10, and the rotation post upper is fixed with blade 81, and its lower end is fixed
There is runner, cutting blade motor 83 is connected to the runner of the rotation support bar by belt transmission, is revolved so as to drive rotation support to do
Turn a work dynamic;Certainly, the fixation support bar also can be connected directly with fixed support bar using bearing fixed form.The blade cut machine
The purpose of structure 80 is that inductance core semi-finished product are carried out with machining, and the effect of the cutting blade motor 83 is that band cutting blade 81 rotates,
So as to carry out multi-angle machining to inductance core semi-finished product;On the premise of not changing cutting blade motor 83 and acting on, this is cut
Cutting the effect of motor 83 and the kind of drive of the support bar 82 can also use cylinder type of drive, belt transmissioning mode or runner to pass
Flowing mode;In addition, when if inductance core semi-finished product need not carry out multi-angle machining, cutting blade motor 83 can remove, i.e.,
The blade cut mechanism 80 can include blade 81 and support bar 82;Wherein, the support bar 82 is vertically fixed on the base
On mounting 10, the blade 81 is fixed on the upper end of the support bar 82.
Preferably, the top down spill of the caster 91 is into avoiding hollow groove 911;The avoiding hollow groove 911 is located at the storage material
The lower section that box 31 exports.Avoiding hollow groove 911 is formed because the top of caster 91 concaves, powder can pass through the outlet of storage material box 31
End is filled into avoiding hollow groove 911, and during the transverse shifting of storage material box 31, the powder in avoiding hollow groove 911 can play buffering storage material
The friction of the port of export of box 31 and caster 91, avoids the powder of the port of export of storage material box 31 from changing because with the friction-top of caster 91
Powder molecular structure, so as to ensure that the production efficiency of product.
Correspondingly, the inductance core integrally forming machine also includes cylinder 32;The vertical axis of cylinder 32 is located at the base
On mounting 10, its telescopic end and the twisted connection of the storage material box 31.In the utility model embodiment, the storage material box 31 is with sending
Material seat 23 is mutually permanently connected by connecting rod, and the telescopic end of cylinder 32 is directly to be twisted to be connected to small end
's;During the transverse shifting of storage material box 31, cylinder 32 can also move, and the telescopic end of cylinder 32 also can be because of storage material
The position of box 31 and telescopic movable occurs at any time, play compressing the purpose that storage material box 31 is connected with each other with caster 91, avoid because
Storage material box 31 moves and causes the connection between storage material box 31 and caster 91 to loosen;In addition, compressed not changing cylinder 32
Under the basis that storage material box 31 is connected with each other with caster 91, cylinder 32 can be arranged on any place of pedestal frame 10, as long as cylinder
32 telescopic end, which can play, compresses or tenses the purpose that storage material box 31 is connected with each other with caster 91.
Preferably, the inductance core integrally forming machine also includes pressure sensor and controller;The pressure sensor
Pushed described in being fixed on the mobile terminal of travel mechanism 90 and its control terminal is electrically connected with the controller;The controller
Be fixed on pedestal frame 10 and respectively with the Shang Ya travel mechanisms 40, suction rotating mechanism 50, vertically movable mechanism 60, laterally
Travel mechanism 70 and the control terminal electric connection for pushing travel mechanism 90.The controller can coordinate the Shang Ya travel mechanisms
40th, suction rotating mechanism 50, vertically movable mechanism 60, transverse moving mechanism 70 and the activity process for pushing travel mechanism 90,
Automated production is better achieved;The pressure state of pressure sensor detection Shang Ya travel mechanisms 40 is simultaneously defeated by detection data W1
Go out into the controller;Then controller is pressed downward travel mechanism 90 and sent out according to the detection data W1 of the pressure sensor
Action signal is sent, travel mechanism 90 is pushed so as to control and adjusts uniform powder extruding force degree;By controller, by what is be molded every time
Pressure data is compared with the pressure tolerances scope set, automatic to carry out instead when the change of tendency occurs in briquetting pressure
To regulation, the pressure in the course of work is fluctuated all the time above and below central value, reach the purpose automatically controlled, without artificial dry
In advance, automaticity is high, and the uniformity of product is good, so as to improve the quality of production of inductance core.
Also, inductance core finished product is collected for convenience, the inductance core integrally forming machine also includes passage 55;Institute
Passage 55 is stated to be fixed on the pedestal frame 10 and positioned at the lower section of the suction rotating mechanism 50.
Each embodiment is described by the way of progressive in this specification, what each embodiment stressed be and other
The difference of embodiment, identical similar portion cross-reference between each embodiment.
The foregoing description of the disclosed embodiments, professional and technical personnel in the field are enable to realize or use this practicality.
A variety of modifications to these embodiments will be apparent for those skilled in the art, as defined herein
General Principle can be realized in other embodiments in the case where not departing from this practical spirit or scope.Therefore, this practicality
The embodiments shown herein is not intended to be limited to, and is to fit to and principles disclosed herein and features of novelty phase one
The most wide scope caused.
Claims (10)
- A kind of 1. inductance core integrally forming machine, it is characterised in that:The inductance core integrally forming machine includes pedestal frame, feeding Travel mechanism, hopper, storage material box, caster, Shang Ya travel mechanisms, suction rotating mechanism, vertically movable mechanism, transverse shifting machine Structure, push travel mechanism and blade cut mechanism;Wherein, the travel mechanism that pushes is fixed on the pedestal frame;It is described Caster is fixed on described push on the mobile terminal of travel mechanism;The top down spill of the caster is into hollow molded cavity;Institute The top that storage material box transverse shifting is set in the caster is stated, which is provided with import, its bottom is provided with outlet;The hopper erects To being fixed on pedestal frame and positioned at the top of the storage material box, the inlet communication of its discharging opening and the storage material box;It is described to send Material travel mechanism is secured transverse on the pedestal frame, and its mobile terminal is connected with the storage material box and drives the storage material box in mother Slid laterally in template;The Shang Ya travel mechanisms are vertically fixed on pedestal frame and drive its mobile terminal in the caster Top, which slides vertically, compresses the caster;The transverse moving mechanism is secured transverse on the pedestal frame, the vertical shifting Motivation structure is fixed on the mobile terminal of the transverse moving mechanism, and the suction rotating mechanism is fixed on the vertically movable mechanism Mobile terminal on and positioned at the caster top;The blade cut mechanism is fixed on the pedestal frame and positioned at described The lower section of suction rotating mechanism.
- A kind of 2. inductance core integrally forming machine according to claim 1, it is characterised in that:The Shang Ya travel mechanisms bag Medium-voltage Motor, upper compression filament bar, cope plate and upper pressure guide pillar are included;Wherein, the upper pressure guide pillar is vertically fixed on the pedestal On frame;The upper Medium-voltage Motor is fixed on the pedestal frame;The cope plate, which slides vertically, to be set on the upper pressure guide pillar;Institute State upper compression filament bar one end to be connected with the upper Medium-voltage Motor, its other end is threadedly coupled with the cope plate.
- A kind of 3. inductance core integrally forming machine according to claim 2, it is characterised in that:It is described to push travel mechanism's bag Include fixed mount, push screw mandrel, lower piezoelectric machine and push rod;The lower piezoelectric machine is fixed on the pedestal frame;The fixation Frame, which slides vertically, to be set on the upper pressure guide pillar;The caster is fixed on the upper end of the fixed mount;The push rod is fixed On the pedestal frame and positioned at the lower section of the caster hollow molded cavity;The described screw mandrel one end that pushes passes with the lower piezoelectric machine Dynamic connection, its other end are threadedly coupled with the fixed mount.
- A kind of 4. inductance core integrally forming machine according to claim 1, it is characterised in that:The feeding travel mechanism bag Feeding motor, feeding screw mandrel, material feeding seat and feeding guide are included;The feeding guide is fixed on the pedestal frame;It is described Feeding motor is fixed on the pedestal frame;The material feeding seat, which slides laterally, to be set on the feeding guide;The feeding silk One end of bar is connected with the feeding motor, and its other end is threadedly coupled with the material feeding seat;The storage material box with it is described Material feeding seat is fixedly connected.
- A kind of 5. inductance core integrally forming machine according to claim 1, it is characterised in that:The transverse moving mechanism bag Cross motor, cross lead screw, cross slide way and horizontal pedestal are included;The cross slide way is fixed on the pedestal frame, institute State cross motor to be fixed on the pedestal frame, the horizontal pedestal is slidably arranged on the cross slide way;The transverse wire Bar one end is connected with the cross motor, and its other end is connected with the horizontal base thread;The vertically movable mechanism It is fixed on the horizontal pedestal.
- A kind of 6. inductance core integrally forming machine according to claim 1, it is characterised in that:The vertically movable mechanism bag Vertical motor, vertical screw mandrel and vertical guide pillar are included;Described vertical guide pillar one end is vertically fixed on the transverse moving mechanism Mobile terminal on, the fixed vertical motor of its other end;The suction rotating mechanism is slidably located in the vertical guide pillar On;One end of the vertical screw mandrel and the main shaft of the vertical motor are connected, its other end and the suction whirler Structure is threadedly coupled.
- A kind of 7. inductance core integrally forming machine according to any one of claim 1-6 claim, it is characterised in that: The suction rotating mechanism includes suction support frame, suction electric rotating machine, vacuum tube and hollow suction bar;The suction branch Support is slidably located on the mobile terminal of the vertically movable mechanism;The hollow suction bar is rotatably arranged on the suction support On frame, with being connected at the top of hollow suction bar, its other end connects with external vacuum machine for one end of the vacuum tube, the suction rotation Rotating motor is fixed on the suction support frame and is connected with the hollow suction bar.
- A kind of 8. inductance core integrally forming machine according to any one of claim 1-6 claim, it is characterised in that: The blade cut mechanism includes blade, support bar and cutting blade motor;Wherein, the support bar vertical rotating is fixed on institute State on pedestal frame, the blade is fixed on the upper end of the support bar;The cutting blade motor is fixed on the pedestal frame and passed The dynamic lower end for being connected to the support bar.
- A kind of 9. inductance core integrally forming machine according to any one of claim 1-6 claim, it is characterised in that: The top down spill of the caster is into avoiding hollow groove;The avoiding hollow groove is located at the lower section of storage material box outlet.
- 10. a kind of inductance core integrally forming machine according to any one of claim 1-6 claim, its feature exist In:The inductance core integrally forming machine also includes pressure sensor and controller;The pressure sensor be fixed on it is described under Press on the mobile terminal of travel mechanism and its control terminal is electrically connected with the controller;The controller is fixed on pedestal frame And respectively with the Shang Ya travel mechanisms, suction rotating mechanism, vertically movable mechanism, transverse moving mechanism and pushing moving machine The control terminal of structure is electrically connected with.
Priority Applications (1)
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CN201720904933.2U CN206976161U (en) | 2017-07-24 | 2017-07-24 | A kind of inductance core integrally forming machine |
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CN201720904933.2U CN206976161U (en) | 2017-07-24 | 2017-07-24 | A kind of inductance core integrally forming machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108555287A (en) * | 2018-03-09 | 2018-09-21 | 天通控股股份有限公司 | Top-drop-down one mould bases in a kind of combined type |
CN109300678A (en) * | 2017-07-24 | 2019-02-01 | 东莞市新日宝成形机器设备有限公司 | A kind of inductance core integrally forming machine |
-
2017
- 2017-07-24 CN CN201720904933.2U patent/CN206976161U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109300678A (en) * | 2017-07-24 | 2019-02-01 | 东莞市新日宝成形机器设备有限公司 | A kind of inductance core integrally forming machine |
CN109300678B (en) * | 2017-07-24 | 2024-01-23 | 深圳市志翔源电子有限公司 | Inductance magnetic core integrated into one piece machine |
CN108555287A (en) * | 2018-03-09 | 2018-09-21 | 天通控股股份有限公司 | Top-drop-down one mould bases in a kind of combined type |
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