CN109358249A - A kind of magnetic elements heat survey machine - Google Patents
A kind of magnetic elements heat survey machine Download PDFInfo
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- CN109358249A CN109358249A CN201811238902.3A CN201811238902A CN109358249A CN 109358249 A CN109358249 A CN 109358249A CN 201811238902 A CN201811238902 A CN 201811238902A CN 109358249 A CN109358249 A CN 109358249A
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- 238000012360 testing method Methods 0.000 claims abstract description 112
- 238000010438 heat treatment Methods 0.000 claims abstract description 90
- 239000000463 material Substances 0.000 claims abstract description 89
- 230000007246 mechanism Effects 0.000 claims abstract description 61
- 238000007599 discharging Methods 0.000 claims abstract description 43
- 238000001816 cooling Methods 0.000 claims abstract description 30
- 238000012797 qualification Methods 0.000 claims abstract description 5
- 230000002950 deficient Effects 0.000 claims description 62
- 230000000903 blocking effect Effects 0.000 claims description 29
- 238000004064 recycling Methods 0.000 claims description 16
- 239000002826 coolant Substances 0.000 claims description 14
- 230000007723 transport mechanism Effects 0.000 claims description 7
- 238000004519 manufacturing process Methods 0.000 abstract description 5
- 238000000034 method Methods 0.000 abstract description 5
- 230000008569 process Effects 0.000 abstract description 4
- 239000000047 product Substances 0.000 description 34
- 238000010586 diagram Methods 0.000 description 13
- 230000009471 action Effects 0.000 description 3
- 238000012545 processing Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 239000006227 byproduct Substances 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 230000005389 magnetism Effects 0.000 description 1
- 238000005259 measurement Methods 0.000 description 1
- 238000004806 packaging method and process Methods 0.000 description 1
- 230000009466 transformation Effects 0.000 description 1
Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
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- Sampling And Sample Adjustment (AREA)
Abstract
The invention discloses a kind of magnetic elements heat to survey machine, including cabinet and is fixed on cabinet and sequentially connected feeding mechanism, heating mechanism, cooling body and discharging mechanism;Heating mechanism includes heater box, conveying item and the pushing component for pushing conveying item to move in heater box;Cooling body includes support base, sub-material component and the test suite magnetic elements are carried out with electrical testing.Magnetic elements heat provided by the invention surveys machine, can be realized being carried out continuously for the processes such as the heating to electronic component, test, cooling, improves measuring accuracy and cooling efficiency, guarantees the qualification rate of product, improve the production efficiency of product.
Description
Technical field
The invention belongs to the technical fields of magnetic elements test machine, specifically, being related to a kind of magnetic elements heat survey
Machine.
Background technique
In magnetic elements production process, need to magnetic elements produced carry out electrical testing, including Thermal test,
Hi-pot test, cold test etc., existing Thermal test are generallyd use the unified heating of whole disk magnetic elements, whole disk after the completion of heating
The mode tested one by one is taken out, this mode, its temperature can change after magnetic elements leave heating environment, to right
When it is detected, temperature differs larger with actually required analog temperature, is unable to the true use environment of analog equipment,
Test error is larger, it cannot be guaranteed that the qualification rate of product;In addition, in actual production, the product after Thermal test will be cooled down,
To carry out other links such as subsequent cold survey or packaging, existing cooling provision mostly uses room temperature cooling, and cooling efficiency is low, causes
The links such as existing heating, test, cooling tend not to be carried out continuously, and influence the production efficiency of product.
Summary of the invention
For deficiency above-mentioned in the prior art, the present invention provides a kind of magnetic elements heat survey machine, can be realized to magnetic
Property component the processes such as heating, test, cooling be carried out continuously, improve measuring accuracy and cooling efficiency, guarantee the conjunction of product
Lattice rate improves the production efficiency of product.
In order to achieve the above object, the solution that the present invention uses is: a kind of magnetic elements heat survey machine, including cabinet
And it is fixed on cabinet and sequentially connected feeding mechanism, heating mechanism, cooling body and discharging mechanism;Heating mechanism includes adding
Hot tank, conveying item and the pushing component for pushing conveying item to move in heater box;Heater box to magnetic elements into
Row heating;Conveying item is provided with several and is set in heater box to convey magnetic elements, conveying item;Cooling body includes
Support base, sub-material component and the test suite magnetic elements are carried out with electrical testing;Cooling stream is provided in support base
Road, support base connect the gas nozzle blown in oriented coolant flow channel, and coolant flow channel includes non-defective unit runner and defective products runner;Sub-material group
Part is set between test suite and coolant flow channel, and sub-material component is good to be guided to the magnetic elements of electrical testing qualification
The underproof magnetic elements of electrical testing are guided to defective products runner by product runner.
Further, cabinet is tiltedly installed with working panel, and heating mechanism is fixed on working panel, and feeding mechanism inclination is set
It is placed in above heating mechanism, cooling body and discharging mechanism are successively obliquely installed below heating mechanism.
Further, heating cavity and stand-by cavity are provided in heater box, stand-by cavity is located above heating cavity;Add
Hot cavity side is provided with feed inlet, and feed inlet is connect with feeding mechanism, and the heating cavity other side is provided with discharge port, discharge port
It is connect with cooling body;Be provided with first passage in the heater box of feed inlet side, first passage be used for by conveying item from
Stand-by cavity is delivered in heating cavity;Second channel is provided in the heater box of discharge port side, second channel is used for
Conveying item is delivered in stand-by cavity from heating cavity.
Further, pushing component includes the first pushing meanss, the second pushing meanss and third pushing meanss;First pushes
Device includes the first cylinder and the first pushing frame for being fixedly connected with the piston rod of the first cylinder, and the first cylinder is fixed on cabinet,
First pushing frame is located at the side of the close feed inlet of heating cavity, to push the intracorporal conveying item of heating chamber from feed inlet one
Lateral discharge port side is mobile;Second pushing meanss include the second cylinder and be fixedly connected with the piston rod of the second cylinder second
Pushing frame, the second cylinder are fixed on cabinet, and the second pushing frame is located at the bottom of heating cavity, and is located at discharge port side, to
The intracorporal conveying item of heating chamber is pushed to move into stand-by cavity;Third pushing meanss include third cylinder and with third cylinder
The third pushing frame that piston rod is fixedly connected, third cylinder are fixed on cabinet, third pushing frame be located at stand-by cavity close to going out
The side of material mouth, to push the intracorporal conveying item of stand-by chamber mobile from one side of discharge port to feed inlet side.
Further, test suite includes test runner, test block, the first stop gauge, positioning device and is divided into survey
The test device of test block two sides;Test runner is set in support base, and test runner includes charging runner and discharging runner, charging
Runner and the discharge port of heater box connect, and discharging runner is connect with sub-material component;Test block is fixed on charging runner and reactor effluent stream
In test runner between road, test block is recessed with the test hopper for placing magnetic elements, the setting of test hopper two sides
There is side plate, side plate offers several instrument connections;Test device includes sequentially connected spring stack, tests base station and base station cylinder,
Spring stack one end is fixedly connected with the side plate of test block, and the spring stack other end is fixedly connected with the side of test base station, tests base
The other side of platform is fixedly connected with the piston rod of base station cylinder, and base station cylinder is fixed on support base;First stop gauge includes the
One backgauge cylinder and the first material blocking block being fixedly connected with the piston rod of the first backgauge cylinder, the first material blocking block are fixed on feeding flow
Support base above road feeds the support base above runner and offers the first pilot hole being oriented to for the first material blocking block;Positioning
Device includes positioning cylinder and for the locating piece that is positioned of magnetic elements in test hopper, test hopper include into
Expect that end and discharge end, feeding end are connected with charging runner, discharge end is connected with discharging runner, and positioning device is located at test hopper
Discharge end side, positioning cylinder are fixed on support base, and locating piece is fixedly connected with the piston rod of positioning cylinder.
Further, sub-material component includes sub-material runner, sliding block, slide-driving device and point being fixed in sub-material runner
Expect guide rail;Sub-material runner is set in support base, and discharging runner, non-defective unit runner, defective products runner are connected with sub-material runner;Sliding block
Non-defective unit outlet and defective products outlet are offered, non-defective unit outlet is used for for connecting discharging runner and non-defective unit runner, defective products outlet
Connection discharging runner and defective products runner;Slide-driving device is for pushing sliding block to move along sub-material guide rail.
Further, heater box further includes having heating bottom plate, cover board, front side board and back side panel, and feed inlet is opened in front side
Plate, discharge port are opened in back side panel;Heating bottom plate is provided with electric heater unit;Cover board and front side board are articulated and connected, and cover board is fixed
It is connected with operating handle;Front side board is convexly equipped with the first supporting plate into heater box, and back side panel is convexly equipped with the second supporting plate into heater box,
First supporting plate and the second supporting plate separate heating cavity and stand-by cavity.
Further, gas nozzle is fixed on the support base above coolant flow channel.
Further, feeding mechanism includes charging support, feed pipe, feed pipe recycling bracket and for feed pipe to be pushed into
Feed pipe recycles the feed pipe pushing meanss of bracket, and feed pipe is connected in charging support, and feed pipe recycling bracket and feed pipe push away
Dynamic device is divided into feed pipe two sides;Discharging mechanism includes discharging support, discharge nozzle, discharge nozzle recycling bracket and is used to discharge
Pipe is pushed into the discharge nozzle pushing meanss of discharge nozzle recycling bracket, and discharge nozzle is connected in discharging support, and discharge nozzle recycles bracket and goes out
Expects pipe pushing meanss are divided into discharge nozzle two sides.
Further, between feeding mechanism and heating mechanism be equipped with materials transport mechanism, materials transport mechanism include into
Expect that channel, feeding channel side are fixedly connected with the second stop gauge for preventing material from continuously sliding to heating mechanism, second
Stop gauge includes the second backgauge cylinder and third backgauge cylinder, and the piston rod of the second backgauge cylinder is fixedly connected with the second backgauge
Block, the piston rod of third backgauge cylinder are fixedly connected with third material blocking block, and feeding channel side is also provided with for the second backgauge
Second pilot hole of block guiding and the third pilot hole being oriented to for third material blocking block.
The beneficial effects of the present invention are:
Magnetic elements heat of the invention surveys machine, and magnetic elements are entered by feeding mechanism and are located at heater box heating cavity
In interior conveying item, under the action of pushing component, the conveying item equipped with magnetic elements is moved and is carried out in heating cavity
Heating, the magnetic elements for heating completion, which continuously enter test suite, to be tested, and the empty conveying item of magnetic elements is exported
Heating cavity is returned after stand-by cavity under the promotion of pushing component to charge again, completes circulation.The first device of magnetism after test
Part is divided into non-defective unit and defective products through sub-material component, and non-defective unit and defective products respectively enter non-defective unit runner and defective products runner, gas nozzle to
It blows in non-defective unit runner and defective products runner and magnetic elements is cooled down, the cooling magnetic elements completed are through discharging mechanism
Export enters subsequent processing.Magnetic elements heat through the invention surveys machine, and the heating to magnetic elements may be implemented, survey
Being carried out continuously for the processes such as amount, cooling, improves measurement accuracy and cooling efficiency, guarantees the qualification rate of product, improve the life of product
Produce efficiency.
Detailed description of the invention
Fig. 1 is the structural schematic diagram that magnetic elements heat of the invention surveys machine;
Fig. 2 is the structural schematic diagram of heater box of the invention;
Fig. 3 is the partial structure diagram of heating mechanism of the invention;
Fig. 4 is the partial structure diagram of heater box of the invention;
Fig. 5 is the structural schematic diagram of conveying movement routine of the invention;
Fig. 6 is the partial structure diagram of cooling body of the invention;
Fig. 7 is the partial structure diagram of cooling body and discharging mechanism of the invention;
Fig. 8 is the enlarged drawing in Fig. 7 at A;
Fig. 9 is the structural schematic diagram of test device of the invention;
Figure 10 is the structural schematic diagram of test block of the invention;
Figure 11 is the partial structure diagram of sub-material component of the invention;
Figure 12 is the structural schematic diagram of feeding mechanism of the invention;
Figure 13 is the structural schematic diagram of discharging mechanism of the invention;
Figure 14 is the partial structure diagram of materials transport mechanism of the invention.
In attached drawing:
100- cabinet, 110- working panel, 200- feeding mechanism, 210- charging support, 220- feed pipe, 230-
Feed pipe recycling bracket, 240- feed pipe pushing meanss, 300- heating mechanism, 311- heating cavity, the stand-by cavity of 312-,
313 first passages, 314- second channel, 315- heating bottom plate, 316- cover board, 316a- operating handle, 318- front side board,
318a- feed inlet, the first supporting plate of 318b-, 319- back side panel, 319a- discharge port, 320- conveying item, the first gas of 331a
Cylinder, the first pushing frame of 331b-, the second cylinder of 332a-, the second pushing frame of 332b-, 333a- third cylinder, 333b- third
Pushing frame, 400- cooling body, 410- test suite, 411a- feed runner, 411b- discharging runner, 412a- first gear
Material cylinder, the first material blocking block of 412b-, 413a- positioning cylinder, 413b- locating piece, 414- test block, 414a- instrument connection,
414b- side plate, 414c- test hopper, 415a- test base station, 415b- base station cylinder, 415c- spring stack, 420- points
Expect component, 421- sub-material guide rail, 422- sliding block, the outlet of 422a- non-defective unit, the outlet of 422b- defective products, 423- slipper push
Mechanism, 424- sub-material runner, 431- non-defective unit runner, 432- gas nozzle, 433- defective products runner, 440- support base, 500-
Discharging mechanism, 510- discharging support, 520- discharge nozzle, 530- discharge nozzle recycling bracket, 540- discharge nozzle pushing meanss,
600- materials transport mechanism, 610- feeding channel, the second backgauge cylinder of 621-, the second material blocking block of 621a-, 622- third
Backgauge cylinder, 622a- third material blocking block.
Specific embodiment
To make the object, technical solutions and advantages of the present invention clearer, the technical solution in the present invention is carried out below
It describes clear and completely, it is clear that described embodiments are some of the embodiments of the present invention, instead of all the embodiments.Base
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts it is all its
His embodiment, shall fall within the protection scope of the present invention.
Below in conjunction with attached drawing, the invention will be further described:
As shown in attached drawing 1- attached drawing 14, the present invention provides a kind of magnetic elements heat survey machine, is mainly used for network transformation
Device carries out electrical testing, including cabinet 100 and is fixed on cabinet 100 and sequentially connected feeding mechanism 200, heating mechanism
300, cooling body 400 and discharging mechanism 500;Heating mechanism 300 is including heater box, conveying item 320 and for pushing conveying item
320 pushing components moved in heater box;Heater box is to heat magnetic elements;Conveying item 320 is to convey
Magnetic elements, conveying item 320 are provided with several and are set in heater box;Cooling body 400 includes support base 440, sub-material
Component 420 and the test suite 410 magnetic elements are carried out with electrical testing;It is provided with coolant flow channel in support base 440,
Support base 440 connects the gas nozzle 432 blown in oriented coolant flow channel, and coolant flow channel includes non-defective unit runner 431 and defective products runner
433;Sub-material component 420 is set between test suite 410 and coolant flow channel, and sub-material component 420 is to qualified by electrical testing
Magnetic elements be guided to non-defective unit runner 431, the underproof magnetic elements of electrical testing are guided to defective products runner
433。
Magnetic elements are entered in the conveying item 320 being located in heater box heating cavity 311 by feeding mechanism 200,
Under the action of pushing component, the conveying item 320 equipped with magnetic elements is moved and is heated in heating cavity 311, heating
The magnetic elements of completion, which continuously leave heater box and enter test suite 410, to be tested, and the sky for exporting magnetic elements is defeated
Material strip 320 returns to heating cavity 311 after stand-by cavity 312 under the driving of pushing component and charges again, completes circulation.Test
Magnetic elements afterwards divide through sub-material component 420 for non-defective unit and defective products, and non-defective unit and defective products respectively enter 431 He of non-defective unit runner
Defective products runner 433, gas nozzle 432 are blown into non-defective unit runner 431 and defective products runner 433 and are cooled down to magnetic elements,
Gas nozzle 432 is connected with the gas source for supplying to gas nozzle 432, and the cooling magnetic elements completed are exported through discharging mechanism 500, into
Enter subsequent processing.
In the present embodiment, cabinet 100 is tiltedly installed with working panel 110, and heating mechanism 300 is fixed on working panel 110,
Feeding mechanism 200 is obliquely installed above heating mechanism 300, and cooling body 400 and discharging mechanism 500 are successively obliquely installed in adding
300 lower section of heat engine structure.By being obliquely installed, magnetic elements are enabled to enter next machine from a upper mechanism using gravity
Structure.
Heating cavity 311 and stand-by cavity 312 are provided in the present embodiment, in heater box, stand-by cavity 312 is located at heating
311 top of cavity;311 side of heating cavity is provided with feed inlet 318a, and feed inlet 318a is connect with feeding mechanism 200, heating
311 other side of cavity is provided with discharge port 319a, and discharge port 319a is connect with cooling body 400;Positioned at the side feed inlet 318a
Heater box in be provided with first passage 313, first passage 313 is used to conveying item 320 being delivered to heating from stand-by cavity 312
In cavity 311;Second channel 314 is provided in the heater box of the side discharge port 319a, second channel 314 is used for conveying
Item 320 is delivered in stand-by cavity 312 from heating cavity 311.Pushing component include the first pushing meanss, the second pushing meanss and
Third pushing meanss;First pushing meanss include the first cylinder 331a and be fixedly connected with the piston rod of the first cylinder 331a
One pushing frame 331b, the first cylinder 331a are fixed on cabinet 100, the first pushing frame 331b be located at heating cavity 311 close into
The side of material mouth 318a, to push the conveying item 320 in heating cavity 311 from mono- side feed inlet 318a to discharge port 319a mono-
Side is mobile;Second pushing meanss include the second cylinder 332a and the second promotion being fixedly connected with the piston rod of the second cylinder 332a
Frame 332b, the second cylinder 332a are fixed on cabinet 100, and the second pushing frame 332b is located at the bottom of heating cavity 311, and is located at
The side material mouth 319a, the heating bottom plate 315 of heater box offers the pilot hole for the second pushing frame 332b guiding, to push
Conveying item 320 in heating cavity 311 is moved into stand-by cavity 312;Third pushing meanss include third cylinder 333a and with
The third pushing frame 333b that the piston rod of third cylinder 333a is fixedly connected, third cylinder 333a are fixed on cabinet 100, and third pushes away
Moving frame 333b is located at the side of the close discharge port 319a of stand-by cavity 312, to push the conveying item in stand-by cavity 312
320 is mobile from mono- side discharge port 319a to the side feed inlet 318a.
Magnetic elements heat survey machine operation when, magnetic elements by feed inlet 318a enter be located at heating cavity 311 into
In the conveying item 320 of the side material mouth 318a, after conveying item 320 fills magnetic elements, it is located at 311 feed inlet of heating cavity
First cylinder 331a of the side 318a drives the first pushing frame 331b to push the conveying item 320 along the direction D1 from feed inlet 318a mono-
The lateral side discharge port 319a is mobile, which is heated in moving process, be moved to out to the conveying item 320
When the material mouth position 319a, magnetic elements are exported from discharge port 319a, and the empty conveying item 320 after exporting magnetic elements is along the side D1
To the end for the side discharge port 319a for continuously moving to heating cavity 311, positioned at the side discharge port 319a of heating cavity 311
The second cylinder 332a below end drives the second pushing frame 332b that the conveying item 320 is pushed to move up, 320 edge of conveying item
The direction D2 reaches stand-by cavity 312 by second channel 314, the third cylinder positioned at stand-by 312 one end discharge port 319a of cavity
333a drives third pushing frame 333b to push the conveying item 320 along the direction D3 from mono- side discharge port 319a to the side feed inlet 318a
Mobile, when being moved to feed inlet mono- side end 318a, which falls into heating by first passage 313 along the direction D4
Cavity 311 charges at this point, the conveying item 320 is connect with feed inlet 318a, and so far, the conveying item 320 is in heater box
Complete a circulation.Conveying item 320 constantly recycles in heater box, and magnetic elements are continuously imported and exported, side
Just test suite 410 tests magnetic elements under conditions of to greatest extent close to analog temperature, to improve test
Precision.
In the present embodiment, test suite 410 include test runner, test block 414, the first stop gauge, positioning device and
It is divided into the test device of 414 two sides of test block;Test runner is set in support base 440, and test runner includes charging runner
411a and discharging runner 411b, feeds the discharge port 319a connection of runner 411a and heater box, discharging runner 411b and sub-material group
Part 420 connects;In the test runner that test block 414 is fixed on charging runner 411a between the runner 411b that discharges, test block 414
It is recessed with the test hopper 414c for placing magnetic elements, the test two sides hopper 414c are provided with side plate 414b, side plate
414b offers several instrument connection 414a;Test device includes sequentially connected spring stack 415c, test base station 415a and base station
Cylinder 415b, the one end spring stack 415c are fixedly connected with the side plate 414b of test block 414, the spring stack 415c other end and test base
The side of platform 415a is fixedly connected, and the other side of test base station 415a is fixedly connected with the piston rod of base station cylinder 415b, base station
Cylinder 415b is fixed on support base 440;First stop gauge include the first backgauge cylinder 412a and with the first backgauge cylinder 412a
Piston rod the first material blocking block 412b for being fixedly connected, the first material blocking block 412b be fixed on the support base above charging runner 411a
440, it feeds the support base 440 above runner 411a and offers the first pilot hole being oriented to for the first material blocking block 412b;Positioning
Device includes positioning cylinder 413a and the locating piece 413b for being positioned to the magnetic elements in test hopper 414c, is surveyed
Sample slot 414c includes feeding end and discharge end, and feeding end is connected with charging runner 411a, and discharge end is led with discharging runner 411b
Logical, positioning device is located at the discharge end side of test hopper 414c, and positioning cylinder 413a is fixed on support base 440, locating piece
413b is fixedly connected with the piston rod of positioning cylinder 413a.
Magnetic elements enter feeding flow road 411a after the export of heating mechanism 300, above charging runner 411a
First stop gauge is fixed and is let pass to magnetic elements by the flexible of the first material blocking block 412b, the first material blocking block 412b
When stretching, end abutment is at the top of magnetic elements, limitation magnetic elements operation, when the first material blocking block 412b is withdrawn, magnetic
Property component is able to proceed to test block 414, after the completion of to be tested, then lets pass to next magnetic elements;It is magnetic
Component is run to the test hopper 414c of test block 414, and the base station cylinder 415b positioned at 414 two sides of test block drives test
Base station 415a is run to test block 414, and the testing needle on base station cylinder 415b passes through the test on the side plate 414b of test block 414
Hole 414a is contacted with magnetic elements, carries out electrical testing to magnetic elements;Magnetic elements when testing, are located at and survey
The end that the locating piece 413b of sample slot 414c discharge end blocks magnetic elements positions it, facilitates and is tested, and surveys
After examination, locating piece 413b is moved up under the drive of positioning cylinder 413a, to magnetic elements let pass, make magnetic elements into
Enter to discharge runner 411b.
In the present embodiment, sub-material component 420 includes sub-material runner 424, sliding block 422, slide-driving device 423 and is fixed on
Sub-material guide rail 421 in sub-material runner 424;Sub-material runner 424 is set in support base 440, and discharge runner 411b, non-defective unit runner
431, defective products runner 433 and sub-material runner 424 are connected, and sliding block 422 offers non-defective unit outlet 422a and defective products outlet 422b,
Non-defective unit exports 422a and exports 422b for connecting discharging runner for connecting discharging runner 411b and non-defective unit runner 431, defective products
411b and defective products runner 433;Slide-driving device 423 is for pushing sliding block 422 to move along sub-material guide rail 421.
When magnetic elements test passes, slide-driving device 423 drives sliding block 422 to run along sub-material guide rail 421, makes
It obtains non-defective unit outlet 422a to connect with discharging runner 411b, magnetic elements enter non-defective unit outlet 422a, then slide-driving device
423 continue that sliding block 422 is driven to run, so that non-defective unit outlet 422a and non-defective unit runner 431 are connected, non-defective unit is exported;When magnetic member
When device detection is unqualified, slide-driving device 423 drives sliding block 422 to run along sub-material guide rail 421, so that defective products exports
422b is connect with discharging runner 411b, and magnetic elements enter defective products outlet 422b, and then slide-driving device 423 continues to drive
Movable slider 422 is run, so that defective products outlet 422b and defective products runner 433 are connected, defective products is exported.
Specifically, the heater box of the present embodiment further includes having heating bottom plate 315, cover board 316, front side board 318 and back side panel
319, feed inlet 318a are opened in front side board 318, and discharge port 319a is opened in back side panel 319;Heating bottom plate 315 is provided with electricity and adds
Thermal, for being heated to the magnetic elements in the conveying item 320 being located on heating bottom plate 315;Cover board 316 and front side
Plate 318 is articulated and connected, and cover board 316 is fixedly connected with operating handle 316a, convenient for carrying out switching action to cover board 316;Front side board
318 are convexly equipped with the first supporting plate 318b into heater box, and back side panel 319 is convexly equipped with the second supporting plate, the first supporting plate into heater box
318b and the second supporting plate separate heating cavity 311 and stand-by cavity 312, and the conveying item 320 in heating cavity 311 arranges
In on heating bottom plate 315,320 both ends of conveying item in stand-by cavity 312 are located at the first supporting plate 318b and second
On plate.
In the present embodiment, gas nozzle 432 is fixed on the support base 440 above coolant flow channel, from the top down into coolant flow channel
It blows.
In the present embodiment, feeding mechanism 200 includes charging support 210, feed pipe 220, feed pipe recycling bracket 230 and uses
In the feed pipe pushing meanss 240 that feed pipe 220 is pushed into feed pipe recycling bracket 230, feed pipe 220 is connected in charging support
210, feed pipe recycling bracket 230 and feed pipe pushing meanss 240 are divided into 220 two sides of feed pipe;Discharging mechanism 500 includes
Material bracket 510, discharge nozzle 520, discharge nozzle recycle bracket 530 and for discharge nozzle 520 to be pushed into discharge nozzle recycling bracket 530
Discharge nozzle pushing meanss 540, discharge nozzle 520 are connected in discharging support 510, and discharge nozzle recycles bracket 530 and discharge nozzle pushes dress
It sets 540 and is divided into 520 two sides of discharge nozzle.
In the present embodiment, materials transport mechanism 600, material transferring machine are equipped between feeding mechanism 200 and heating mechanism 300
Structure 600 includes feeding channel 610, and 610 side of feeding channel is fixedly connected with for preventing material from continuously sliding to heating mechanism
300 the second stop gauge, the second stop gauge include the second backgauge cylinder 621 and third backgauge cylinder 622, the second backgauge gas
The piston rod of cylinder 621 is fixedly connected with the second material blocking block 621a, and the piston rod of third backgauge cylinder 622 is fixedly connected with third gear
Expect block 622a, 610 side of feeding channel is also provided with for the second pilot hole of the second material blocking block 621a guiding and for third
The third pilot hole of material blocking block 622a guiding.
After magnetic elements enter feeding channel 610, the second material blocking block 621a protrudes into feeding channel by the second pilot hole
610 and keep off in the first magnetic elements end, prevent it from continuing to move forwards, third material blocking block 622a pass through third pilot hole
It protrudes into feeding channel 610 and is against the second magnetic elements side being located at thereafter, when needing to let pass, the second material blocking block 621a is received
It returns, the first magnetic elements of letting pass, after the first magnetic elements leave, third material blocking block 622a is withdrawn, and is let pass and is located at thereafter
The second magnetic elements, at this time the second material blocking block 621a stretch out, block the second magnetic elements.Repeatedly, it ensure that magnetic
Property component enters heater box with fixed frequency.
Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations, although
Present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: it still may be used
To modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features,
And these are modified or replaceed, technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution spirit and
Range.
Claims (10)
1. a kind of magnetic elements heat surveys machine, it is characterized in that: include cabinet and be fixed on the cabinet and it is sequentially connected into
Expect mechanism, heating mechanism, cooling body and discharging mechanism;
The heating mechanism includes heater box, conveying item and the promotion for pushing the conveying item to move in the heater box
Component;The heater box is to heat magnetic elements;The conveying item is to convey magnetic elements, the conveying
Item is provided with several and is set in the heater box;
The cooling body includes support base, sub-material component and the test suite magnetic elements are carried out with electrical testing;
Coolant flow channel is provided in the support base, the support base connects the gas nozzle blown in the oriented coolant flow channel, described cold
But runner includes non-defective unit runner and defective products runner;The sub-material component be set to the test suite and the coolant flow channel it
Between, the sub-material component is unqualified by electrical testing the magnetic elements of electrical testing qualification are guided to non-defective unit runner
Magnetic elements be guided to defective products runner.
2. magnetic elements heat according to claim 1 surveys machine, it is characterized in that: the cabinet is tiltedly installed with working face
Plate, the heating mechanism are fixed on the working panel, and the feeding mechanism is obliquely installed above the heating mechanism, described
Cooling body and the discharging mechanism are successively obliquely installed below the heating mechanism.
3. magnetic elements heat according to claim 1 surveys machine, it is characterized in that: being provided with heating cavity in the heater box
With stand-by cavity, the stand-by cavity is located above the heating cavity;
The heating cavity side is provided with feed inlet, and the feed inlet is connect with the feeding mechanism, and the heating cavity is another
Side is provided with discharge port, and the discharge port is connect with the cooling body;
First passage is provided in the heater box of the feed inlet side, the first passage is used for the conveying
Item is delivered in the heating cavity from the stand-by cavity;Is provided in the heater box of the discharge port side
Two channels, the second channel is for the conveying item to be delivered in the stand-by cavity from the heating cavity.
4. magnetic elements heat according to claim 3 surveys machine, it is characterized in that: the pushing component includes the first promotion dress
It sets, the second pushing meanss and third pushing meanss;
First pushing meanss include the first cylinder and the first pushing frame for being fixedly connected with the piston rod of first cylinder,
First cylinder is fixed on the cabinet, and first pushing frame is located at the one of the close feed inlet of the heating cavity
Side, to push the intracorporal conveying item of the heating chamber mobile from one side of feed inlet to the discharge port side;
Second pushing meanss include the second cylinder and the second pushing frame for being fixedly connected with the piston rod of second cylinder,
Second cylinder is fixed on the cabinet, and second pushing frame is located at the bottom of the heating cavity, and goes out described in
Material mouth side, to push the intracorporal conveying item of the heating chamber to move into the stand-by cavity;
The third pushing meanss include third cylinder and the third pushing frame that is fixedly connected with the piston rod of the third cylinder,
The third cylinder is fixed on the cabinet, and the third pushing frame is located at the one of the close discharge port of the stand-by cavity
Side, to push the intracorporal conveying item of the stand-by chamber mobile from one side of discharge port to the feed inlet side.
5. magnetic elements heat according to claim 3 surveys machine, it is characterized in that: the test suite include test runner,
Test block, the first stop gauge, positioning device and the test device for being divided into the test block two sides;
The test runner is set in the support base, the test runner include charging runner and discharging runner, it is described into
Stream road is connect with the discharge port of the heater box, and the discharging runner is connect with the sub-material component;
The test block is fixed in the test runner between the charging runner and the discharging runner, the test block
It is recessed with the test hopper for placing magnetic elements, the test hopper two sides are provided with side plate, and the side plate offers
Several instrument connections;
The test device includes sequentially connected spring stack, test base station and base station cylinder, described spring stack one end with it is described
The side plate of test block is fixedly connected, and the spring stack other end is fixedly connected with the side of the test base station, the survey
The other side of examination base station is fixedly connected with the piston rod of the base station cylinder, and the base station cylinder is fixed on the support base;
First stop gauge include the first backgauge cylinder and be fixedly connected with the piston rod of first backgauge cylinder
One material blocking block, first material blocking block is fixed on the support base above the charging runner, above the charging runner
The support base offers the first pilot hole for first material blocking block guiding;
The positioning device include positioning cylinder and for it is described test hopper in the magnetic elements positioned
Locating piece, the test hopper include feeding end and discharge end, and the feeding end is connected with the charging runner, the discharge end
It is connected with the discharging runner, the positioning device is located at the discharge end side of the test hopper, the positioning cylinder
It is fixed on the support base, the locating piece is fixedly connected with the piston rod of the positioning cylinder.
6. magnetic elements heat according to claim 5 surveys machine, it is characterized in that: the sub-material component include sub-material runner,
Sliding block, slide-driving device and the sub-material guide rail being fixed in the sub-material runner;
The sub-material runner is set in the support base, the discharging runner, non-defective unit runner, defective products runner and the sub-material
Runner conducting;
The sliding block offers non-defective unit outlet and defective products outlet, and non-defective unit outlet is for connecting the discharging runner and described
Non-defective unit runner, the defective products outlet is for connecting the discharging runner and the defective products runner;
The slide-driving device is for pushing the sliding block to move along the sub-material guide rail.
7. magnetic elements heat according to claim 2 surveys machine, it is characterized in that: the heater box further includes having heating bottom
Plate, cover board, front side board and back side panel, the feed inlet are opened in the front side board, and the discharge port is opened in the back side panel;
The heating bottom plate is provided with electric heater unit;The cover board and the front side board are articulated and connected, and the cover board is fixedly connected with
Operating handle;The front side board is convexly equipped with the first supporting plate, back side panel projection into the heater box into the heater box
There is the second supporting plate, first supporting plate and second supporting plate separate the heating cavity and the stand-by cavity.
8. magnetic elements heat according to claim 1 surveys machine, it is characterized in that: the gas nozzle is fixed on the coolant flow channel
The support base of top.
9. magnetic elements heat according to claim 1 surveys machine, it is characterized in that: the feeding mechanism include charging support,
Feed pipe, feed pipe recycling bracket and the feed pipe for the feed pipe to be pushed into the feed pipe recycling bracket push dress
It sets, the feed pipe is connected in the charging support, and the feed pipe recycling bracket and the feed pipe pushing meanss are divided into
The feed pipe two sides;The discharging mechanism includes discharging support, discharge nozzle, discharge nozzle recycling bracket and is used for the discharging
Pipe is pushed into the discharge nozzle pushing meanss of discharge nozzle recycling bracket, and the discharge nozzle is connected in the discharging support, it is described go out
Expects pipe recycling bracket and the discharge nozzle pushing meanss are divided into the discharge nozzle two sides.
10. magnetic elements heat according to claim 1 surveys machine, it is characterized in that: the feeding mechanism and the heater
Materials transport mechanism is equipped between structure, the materials transport mechanism includes feeding channel, and the feeding channel side is fixed to be connected
It is connected to the second stop gauge for preventing material from continuously sliding to heating mechanism, second stop gauge includes the second backgauge gas
Cylinder and third backgauge cylinder, the piston rod of second backgauge cylinder are fixedly connected with the second material blocking block, the third backgauge gas
The piston rod of cylinder is fixedly connected with third material blocking block, and the feeding channel side is also provided with to be oriented to for second material blocking block
The second pilot hole and for the third material blocking block guiding third pilot hole.
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CN201811238902.3A CN109358249A (en) | 2018-10-23 | 2018-10-23 | A kind of magnetic elements heat survey machine |
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