CN109239507A - A kind of test machine and its transmission assembly of magnetic elements - Google Patents

Abstract

The invention discloses a kind of test machine of magnetic elements and its transmission assemblies.A kind of magnetic elements transmission assembly comprising: first order driving assembly and second level driving assembly.First order driving assembly makees back and forth movement to drive one first pedestal to prolong a first direction.Second level driving assembly is different from a second direction of first direction and makees back and forth movement to drive one second pedestal to prolong, and second level driving assembly includes several for adsorbing the absorbent module of magnetic elements.This drive assembly is capable of the magnetic elements of synchronizing moving difference test station to next test station.A kind of test machine of magnetic elements, it includes several clamping assemblies and above-mentioned magnetic elements transmission assembly, it is with the high conveying component of the degree of automation and running precision, transfer assembly, test clamping assembly and package assembling, so that the test for reaching magnetic elements reaches the automation of higher degree.

Description

A kind of test machine and its transmission assembly of magnetic elements

Technical field

The invention belongs to the technical fields of electronic component test, specifically, being related to a kind of test of magnetic elements Machine and its transmission assembly.

Background technique

Usual electronic component requires to carry out insertion loss performance, amplitude-frequency characteristic, frequency domain filtering spy after the completion of production Property and other electric performance tests, so that electronic component can reach the requirement of safe handling, and avoid electronics member device There is the problems such as bad pressure resistance, electric leakage, short circuit in use in part, in current test mode, is with manual operation mostly Main, complicated for operation, low efficiency, safety coefficient are low.

Summary of the invention

The first purpose of this invention is to provide a kind of magnetic elements transmission assembly, for the more of magnetic elements Kind of performance test and design, and be capable of the magnetic elements of synchronizing moving difference test station to next test station.

Second object of the present invention is to provide a kind of test machine of magnetic elements, with the degree of automation and fortune Row conveying component with high accuracy, transfer assembly, test clamping assembly and package assembling, so that the test for reaching magnetic elements reaches To the automation of higher degree.

To achieve the above object, the invention provides the following technical scheme:

A kind of magnetic elements transmission assembly comprising: first order driving assembly and second level driving assembly.The first order is driven Component Configuration is moved on a pedestal, first order driving assembly makees back and forth movement to drive one first pedestal to prolong a first direction. Second level driving assembly is configured at first pedestal, and second level driving assembly is different from first party to drive one second pedestal to prolong To a second direction make back and forth movement, second level driving assembly includes several for adsorbing the absorbent module of magnetic elements.

In one embodiment of this invention, first order driving assembly includes first straight line driving mechanism, second level driving group Part includes second straight line driving mechanism.

In one embodiment of this invention, first straight line driving mechanism includes: the first guide rail and screw rod.First guide rail to It guides the first pedestal to prolong first direction and makees back and forth movement, the first guide rail is fixedly connected with pedestal.Screw rod and the first pedestal screw thread connect It connects, pedestal is configured with the first driving motor to drive screw rod to rotate.

In one embodiment of this invention, second straight line driving mechanism includes the second cylinder, to drive the second pedestal to prolong Second direction makees back and forth movement, and the second cylinder is fixedly connected with the first pedestal, and the second pedestal and the second cylinder prolong second direction cunning Dynamic connection.

A kind of test machine of magnetic elements comprising several clamping assemblies and the transmission of above-mentioned magnetic elements are total At above-mentioned absorbent module is to transport magnetic elements to the clamping assembly.Clamping assembly includes test probe, clamping assembly To drive the pin of test probe and magnetic elements to connect.

In one embodiment of this invention, absorbent module, which is prolonged, is parallel to the direction of first direction and is equally spaced, clamping assembly Prolong and be parallel to the direction of first direction and be equally spaced, the distance between adjacent absorbent module is equal between adjacent clamping assembly Distance.

In one embodiment of this invention, clamping assembly includes: positioning head, synchronization blocks and third straight line driving mechanism.It is fixed Potential head is recessed with locating slot, positioning of the locating slot to magnetic elements, and positioning head is equipped with the probe through-hole of connection locating slot.Together Step block is fixedly connected with test probe.Third straight line driving mechanism is to drive synchronization blocks to drive test probe motion.

In one embodiment of this invention, the pin of magnetic elements is divided into the two sides of magnetic elements, a clamping group Part is equipped with a pair of of synchronization blocks, and synchronization blocks are distributed in positioning both sides of head, and third straight line driving mechanism is provided parallel to clamping jaw, this is parallel Clamping jaw includes a pair of of clamping jaw ontology, and synchronization blocks are fixedly connected with clamping jaw ontology.

In one embodiment of this invention, positioning head, synchronization blocks, third straight line driving mechanism are configured at a clamping base On, recovery tube is also configured on the clamping base, recovery tube is to recycle the underproof magnetic elements of detection, recovery tube upper end It is connected with receiving hopper, recovery tube lower end is provided with receiving vat.

In one embodiment of this invention, support plate, fixed company on the upside of the second pedestal are fixedly connected on the downside of the second pedestal It is connected to positioning plate, support plate is equipped with the first pilot hole, and positioning plate is equipped with the second pilot hole.

Absorbent module includes: air intake duct, the second guide rail and spring.Air intake duct is arranged in the first pilot hole and the second pilot hole Interior, air intake duct is connected with absorption syringe needle, adsorbs syringe needle to adsorb magnetic elements.Second guide rail is parallel to air intake duct, and second Guide rail is configured between support plate and positioning plate and is fixedly connected with the second pedestal, and guide head is slidably equipped on the second guide rail, guiding Head is fixedly connected with air intake duct.Between guide head and positioning plate, air intake duct is arranged in spring spring.

In one embodiment of this invention, absorbent module further includes the first photoelectric sensor, and guide head is fixedly connected useful In the barn door for triggering the first photoelectric sensor.

In one embodiment of this invention, absorbent module is 1 group more than clamping assembly.

In one embodiment of this invention, the test machine of magnetic elements of the invention further includes package assembling, the encapsulation Component includes: material strip, packaging belt, plastic packaging machine and splicing plate.The encapsulation slot for containing magnetic elements is equidistantly equipped on material strip, Packaging belt encapsulates slot to plastic packaging.Plastic packaging machine is used for plastic packaging band for material strip plastic packaging.Splicing plate is equipped with splicing groove, and material strip passes through splicing Below slot, splicing groove is located on the distribution arrangement of clamping assembly, and the minimum spacing of hopper and clamping assembly is equal to adjacent suction The distance between attached component.

In one embodiment of this invention, tape surface is equipped with material guide hole；Package assembling further include: guide pad and guide drive Dynamic device.Guiding of the guide pad to material strip, guide pad are equipped with guiding feed inlet and guiding discharge port；Splicing plate is configured at guiding Block upper surface.Guide driving device is to drive material strip to be oppositely oriented block sliding.It includes drive roller wheel that guide, which drives section apparatus, is driven Dynamic roller is connected with one second driving motor.Drive roller wheel is set to the guiding discharge port of guide pad and is located at the downside of material strip, drives The circumferential surface annular spread of dynamic roller has guide convex block；Guide convex block is arranged in the material guide hole of the material strip on the upside of drive roller wheel In, the drive roller wheel of rotation is to draw material strip.

In one embodiment of this invention, pressure roller is equipped with above drive roller wheel, material strip is between pressure roller and drive roller wheel Gap passes through, and pressure roller circumferential surface is equipped with annular groove, resigning of the annular groove to guide convex block.

In one embodiment of this invention, the second driving motor is configured in a first support, is configured in first support First support base, the first support base are connect with first support by an elastic supporting member for supporting optical member, and pressure roller and the first support base are rotatablely connected.

In one embodiment of this invention, the second photoelectric sensor is configured in first support, drive roller wheel is fixedly connected There are the Circular gratings to trigger the second photoelectric sensor.

In one embodiment of this invention, plastic packaging machine uses heat sealing machine, and air-heater includes hot knife, and heat sealing machine is configured with the Four straight line driving mechanisms.

In one embodiment of this invention, clamping assembly and magnetic elements transmission assembly are configured in a rack, the machine The first material wheel, the second material wheel and third material wheel are also configured on frame.First material wheel is located on the outside of guiding feed inlet, and material strip is by first Material wheel leads to guide pad.Second material wheel is located at the upside of guide pad, and packaging belt leads to plastic packaging machine by the second material wheel.Third material wheel position On the outside of guiding discharge port, the completed belt that plastic packaging is completed is wire-wrapped in third material wheel, and third material wheel is connected with for driving third material Take turns the third driving motor of rotation.

In one embodiment of this invention, it is configured with the first guide support wheel between the first material wheel and guiding feed inlet, it should First guide support wheel is to be oriented to material strip.On guide pad be configured with the second guide support wheel, the second guide support wheel to It is oriented to packaging belt.Third material wheel and guiding discharge port between be configured with third guide support wheel, the third guide support wheel to It is oriented to completed belt.

In one embodiment of this invention, configured with the fibre optical sensor for detecting magnetic elements on guide pad.

In one embodiment of this invention, the test machine of magnetic elements of the invention further includes air blowing discharging mechanism, packet It includes: work expects pipe, air blowing component and carrier block.Magnetic elements to be tested are housed in the expects pipe that works.Air blowing component Configuration in On one pedestal, which makes magnetic elements in work expects pipe to work to blow into the first end of work expects pipe The second end for making expects pipe is mobile.Carrier block is configured on the pedestal, and carrier block is provided with bearing groove, and bearing groove is to carry from work Make the magnetic elements of the second end blowout of expects pipe.Splicing groove is located on the distribution arrangement of clamping assembly, and hopper and clamping group The minimum spacing of part be equal to adjacent absorbent module the distance between.

In one embodiment of this invention, air blowing component includes gas-guide tube, guide holder and support.Support and the fixed company of pedestal It connects, guide holder is fixedly connected with support, and gas-guide tube is slidably connected with guide holder.Support is fixedly connected with for driving gas-guide tube 5th linear drives component.

In one embodiment of this invention, pedestal is fixedly connected with the guide pad for abutting work expects pipe, and guide pad is set Between the second end and carrier block of work expects pipe.Guide pad is equipped with to be held for being directed to the magnetic elements in the expects pipe that works Carry the guide through-hole of slot.

In one embodiment of this invention, guide component is configured on pedestal, guide component includes under guide seat and sliding Expect that block, guide seat include the first snap-gauge and the second snap-gauge, the first snap-gauge is fixedly connected with locating piece, and locating piece is fixedly connected useful In the locating convex block of work expects pipe.

Deflector chute is formed between first snap-gauge and the second snap-gauge, stand-by expects pipe is connected in deflector chute, and deflector chute has phase To both ends, one end of the deflector chute of relatively close pedestal is set as discharge end, and sliding blanking block is slidedly arranged below discharge end.

Sliding blanking block includes for blocking discharge end, the first supporting surface for preventing stand-by expects pipe from falling and being used to support Second supporting surface of the expects pipe that works, difference in height between discharge end and the first supporting surface are less than the thickness of stand-by expects pipe, and second The difference in height of support face and the first supporting surface is not more than the thickness of stand-by expects pipe, and the difference in height between discharge end and the second supporting surface is big In the thickness of stand-by expects pipe, the difference in height between locating convex block and pedestal is greater than the thickness of work expects pipe, with a thickness of work expects pipe The spacing of external surface top and bottom.

The sliding path for sliding blanking block is the first relative position to the second relative position.First relative position is second Supporting surface is located at below the second snap-gauge, which is that the second supporting surface is located at below locating convex block.

The surface of the sliding blanking block connected between the first supporting surface and the second supporting surface is set as step surface, step Face the stand-by expects pipe for falling to the second supporting surface is pushed to locating convex block, make stand-by expects pipe become new work expects pipe and Between step surface and locating convex block.

In one embodiment of this invention, the 6th linear drives component is configured on pedestal, the 6th linear drives component is used With driving sliding blanking block movement.

In one embodiment of this invention, guide component is set as 2 of Relative distribution, and deflector chute is to be clamped to materials The end of pipe.6th linear drives component includes synchronous plate one and the 6th cylinder to drive synchronous plate one mobile, is synchronized Plate one is fixedly connected with sliding blanking block.

In one embodiment of this invention, the inlet end of gas-guide tube is connected with tracheae adapter, and the outlet side of gas-guide tube is solid Surely it is connected with the connector be connected with gas-guide tube, the second support base is configured on pedestal, to support connector.Second support base It is provided with pilot hole, connector is slidedly arranged in pilot hole.

In one embodiment of this invention, guide pad is provided with pin hole, and pin hole is conducted to guide from guide pad outer surface and leads to Discharge end in hole and positioned at guide pad.Configured with only component is stopped on pedestal, only stopping component includes positioning pin and for driving Positioning pin moves back and forth the 7th linear drives component in pin hole, and positioning pin is to abut the magnetic first device in guide through-hole Part.

In one embodiment of this invention, the 8th linear drives component is configured on pedestal, the 8th linear drives component is used To drive, carrier block is connected to guide pad or driving carrier block is made to move far from guide pad.

In one embodiment of this invention, waste material backgauge component is configured in rack, waste material backgauge component is to from pedestal On the limit for dropping down onto the expects pipe of the work in rack is pushed away by sliding blanking block.

In one embodiment of this invention, waste material backgauge component includes a pair of of material blocking rod and a pair of of striker plate, this is to guide Cross spacing of the bar to the expects pipe that works, the longitudinal spacing to stock guide to the expects pipe that works.

Technical solution of the present invention has the beneficial effect that:

The magnetic elements transmission assembly that technical solution of the present invention provides has multiple groups absorbent module, this drive assembly can All absorbent modules are driven to move synchronously, absorbent module is for adsorbing magnetic elements, thus by each magnetic elements from a certain Simultaneously for synchronizing moving to another designated position, movement is high-efficient, and avoids the mobile magnetic elements of manual operation, adopts for position absorption Magnetic elements can be protected with negative-pressure adsorption mode.

The test machine for the magnetic elements that technical solution of the present invention provides includes above-mentioned magnetic elements transmission assembly, more Group absorbent module collocation multiple groups clamping assembly work, so as to complete more than one piece magnetic elements synchronizing to clamping assembly Material, high degree of automation, work efficiency is high, and highly-safe.

Detailed description of the invention

Fig. 1 is the schematic diagram that magnetic elements provided by the invention transmit assembly.

Fig. 2 is the schematic diagram of the test machine of magnetic elements provided by the invention.

Fig. 3 is a kind of combined schematic diagram that magnetic elements transmit assembly and clamping assembly.

Fig. 4 is the schematic diagram of clamping assembly.

Fig. 5 is the schematic diagram of package assembling.

Fig. 6 is the enlarged drawing in Fig. 5 at A.

Fig. 7 is the schematic diagram at a visual angle of air blowing discharging mechanism.

Fig. 8 is the enlarged drawing in Fig. 7 at B.

Fig. 9 is the partial schematic diagram at another visual angle of air blowing discharging mechanism.

Figure 10 is the schematic diagram for sliding blanking block.

Figure 11 is the state diagram slided blanking block and be in the first relative position.

Figure 12 is the state diagram slided blanking block and be in the second relative position.

In attached drawing:

11- pedestal, the first pedestal of 12-, the second pedestal of 13-, the first guide rail of 14-, 15- screw rod, the first driving motor of 16-, The second cylinder of 17-, 18- support plate, 19- positioning plate,

21- tests probe, 22- positioning head, 23- locating slot, 24- synchronization blocks, the parallel clamping jaw of 25-, 26- clamping base, 27- Recovery tube, 28- receiving vat,

30- absorbent module, 31- air intake duct, the second guide rail of 32-, 33- guide head, 34- spring, the first photoelectric sensing of 35- Device, 36- tabula rasa,

41- material strip, 411- material guide hole, 42- encapsulation slot, 44- plastic packaging machine, 45- splicing plate, 46- splicing groove, 47- guide pad, 471- guiding feed inlet, 472- guiding discharge port, the 4th straight line driving mechanism of 48-, 51- drive roller wheel, 52- second drive electricity Machine, 53- guide convex block, 54- pressure roller, 55- first support, the first support base of 56-, 57- Circular gratings,

61- rack, the first material wheel of 62-, the second material wheel of 63-, 64- third material wheel, 65- third driving motor,

66- the first guide support wheel, 67- the second guide support wheel, 68- third guide support wheel, 69- fibre optical sensor,

71- work expects pipe, 72- pedestal, 73- carrier block, 731- bearing groove, 74- gas-guide tube, 75- guide holder, 76- the 5th Linear drives component, 77- guide pad, the second support base of 78-, the 7th linear drives component of 79-, the 8th linear drives group of 710- Part, 711- material blocking rod, 712- striker plate,

81- sliding blanking block, the first supporting surface of 811-, the second supporting surface of 812-, 813- step surface, the first snap-gauge of 82-, The second snap-gauge of 83-, 84- locating piece, 841- locating convex block, 85- synchronous plate one, D1- first direction, D2- second direction.

Specific embodiment

Below in conjunction with attached drawing, the invention will be further described:

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.The present invention being usually described and illustrated herein in the accompanying drawings is implemented The component of example can be arranged and be designed with a variety of different configurations.

Therefore, the detailed description of the embodiment of the present invention provided in the accompanying drawings is not intended to limit below claimed The scope of the present invention, but be merely representative of selected embodiment of the invention.Based on the embodiments of the present invention, this field is common Technical staff's every other embodiment obtained without creative efforts belongs to the model that the present invention protects It encloses.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

Term " first ", " second ", " third " etc. are only used for distinguishing description, are not understood to indicate or imply relatively heavy The property wanted.

In addition, term " parallel ", " vertical " etc. are not offered as requiring component absolute parallel or vertical, but can slightly incline Tiltedly.It is not to indicate that the structure has to put down completely if " parallel " only refers to that its direction is more parallel with respect to for " vertical " Row, but can be slightly tilted.

In the description of the present invention, it is also necessary to which explanation is unless specifically defined or limited otherwise, term " setting ", " Installation ", " be connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or is integrated Ground connection；It can be directly connected, the connection inside two elements can also be can be indirectly connected through an intermediary.It is right For those skilled in the art, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.

Embodiment

Referring to attached drawing 1, the present embodiment provides a kind of magnetic elements to transmit assembly.This magnetic elements transmits assembly packet It includes: first order driving assembly and second level driving assembly.First order driving assembly is configured on a pedestal 11, first order driving group Part makees back and forth movement to drive one first pedestal 12 to prolong a first direction D1.Second level driving assembly is configured at first pedestal 12, second level driving assembly is different from a second direction D2 of first direction D1 and makees round-trip fortune to drive one second pedestal 13 to prolong Dynamic, second level driving assembly includes several for adsorbing the absorbent module 30 of magnetic elements.

This drive assembly can drive all absorbent modules 30 to move synchronously, and absorbent module 30 is for adsorbing magnetic first device Part, so that simultaneously for synchronizing moving to another designated position, movement is high-efficient, and keeps away from the absorption of a certain position by each magnetic elements Manpower-free operates mobile magnetic elements, can protect magnetic elements using negative-pressure adsorption mode.

It should be noted that usually setting horizontal direction for first direction D1, vertical side is set by second direction D2 To being achieved in absorbent module 30 and moved in a perpendicular.Also, absorbent module 30 is transported in absorption magnetic elements In dynamic process, this drive assembly first does transverse direction by first order driving assembly driving absorbent module 30 in a kind of working method Movement, then by the second level driving assembly driving absorbent module 30 do vertical motion, this drive assembly in another working method, First order driving assembly and second level driving assembly drive absorbent module 30 to do compound motion simultaneously.

Further, first order driving assembly includes first straight line driving mechanism, and second level driving assembly includes second straight Line driving mechanism.Specifically, first straight line driving mechanism includes: the first guide rail 14 and screw rod 15.First guide rail 14 is to guide First pedestal 12 prolongs first direction D1 and makees back and forth movement, and the first guide rail 14 is fixedly connected with pedestal 11.Screw rod 15 and the first pedestal 12 are threadedly coupled, and pedestal is configured with the first driving motor 16 to drive screw rod 15 to rotate.Specifically, second straight line driving machine Structure includes the second cylinder 17, makees back and forth movement, the second cylinder 17 and First to drive the second pedestal 13 to prolong second direction D2 Body 12 is fixedly connected, and the second pedestal 13 prolongs second direction D2 with the second cylinder 17 and is slidably connected.It is driven using screw rod 15 (lead screw) Absorbent module 30 does transverse movement, does vertical motion using cylinder driving absorbent module 30, all has high reliablity and movement flat Small advantage is shaken in suitable, operation, to prevent the magnetic elements being adsorbed from being fallen by excessive mechanical shaking.

The present embodiment also provides a kind of test machine of magnetic elements, please refers to attached drawing 2, this test machine includes several clampings Component and above-mentioned magnetic elements transmit assembly, and above-mentioned absorbent module 30 is to transport magnetic first device to the clamping assembly Part.Clamping assembly includes test probe 21, and clamping assembly is to drive test probe 21 to connect with the pin of magnetic elements.It is more The group collocation multiple groups clamping assembly work of absorbent module 30, so as to complete more than one piece magnetic elements synchronizing to clamping assembly Material, high degree of automation, work efficiency is high, and highly-safe.

Further, referring to attached drawing 3, absorbent module 30, which is prolonged, to be parallel to the direction of first direction D1 and is equally spaced, clamping group Part, which prolongs, to be parallel to the direction of first direction D1 and is equally spaced, i.e., absorbent module 30 prolongs horizontal direction arrangement, and clamping assembly prolongs level Direction arrangement.The distance between adjacent absorbent module 30 is equal to adjacent the distance between clamping assembly.

Above-mentioned arrangement mode enables first group of absorbent module 30 in multiple groups absorbent module 30 from fixed feeding First group of clamping assembly that magnetic elements absorption is delivered in multiple groups clamping assembly is tested for the property by position；Meanwhile the Two groups of absorbent modules 30 are driven by above-mentioned transmission assembly to first group of clamping assembly, by original place in the magnetism of first group of clamping assembly Component absorption is sent to second group of clamping assembly；And so on；Also, the absorbent module 30 in last bit, which is driven to, to be in The clamping assembly of last bit will be delivered to fixed discharge position after magnetic elements therein absorption.

In the present embodiment, clamping assembly includes: locating piece 84, synchronization blocks 24 and third straight line driving mechanism, referring to attached drawing 3 With attached drawing 4.Locating piece 84 is recessed with locating slot 23, positioning of the locating slot 23 to magnetic elements, and locating piece 84 is equipped with connection The probe through-hole of locating slot 23.Synchronization blocks 24 are fixedly connected with test probe 21.Third straight line driving mechanism is to drive synchronization Block 24 drives test probe 21 to move.In one embodiment of this invention, the pin of magnetic elements is divided into magnetic elements Two sides, a clamping assembly is equipped with a pair of of synchronization blocks 24, and synchronization blocks 24 are distributed in 84 two sides of locating piece, third straight line driving mechanism It is provided parallel to clamping jaw 25, which includes a pair of of clamping jaw ontology, and synchronization blocks 24 are fixedly connected with clamping jaw ontology.

It should be noted that the locating slot 23 of locating piece 84 is that the magnetic elements of absorption are delivered to by absorbent module 30 Destination, and be all absorbent module 30 adsorb magnetic elements starting point.Locating slot 23 is set on 84 upper surface of locating piece Groove, width are slightly larger than the width of magnetic elements, and length is slightly larger than the length of magnetic elements, and absorbent module 30 is adsorbed Magnetic elements reach the locating slot 23, after magnetic elements are put into locating slot 23, discharge negative pressure, can be by magnetic elements It is put into locating slot 23.

In particular, it should be pointed out that 23 bottom of locating slot is convexly equipped with a supporting block, magnetic elements, which are released, drops down onto this branch After bracer, pin is in vacant state, and each pin is directed at each probe through-hole, so that test probe 21 is protruded into from probe through-hole Afterwards, it can be connect with pin.

Parallel clamping jaw 25 is pneumatic-finger, in the present embodiment, uses flat pattern gripping finger, further so as to drive synchronization Block 24 is opposite or backwards to being translatable, and reliable in action runs smoothly, and this moves synchronously or synchronize stop, magnetic to synchronization blocks 24 Property component two sides quilts the test probe 21 of driving the pin of magnetic elements two sides synchronized connect or separate, act Efficiently and to magnetic elements it is not damaged (entire test process be not necessarily to magnetic elements ontology carry out clamping, it is only necessary to connection draw Foot).

In the present embodiment, locating piece 84, synchronization blocks 24, third straight line driving mechanism are configured on a clamping base 26, should Recovery tube 27 is also configured on clamping base 26, recovery tube 27 is to recycle the underproof magnetic elements of detection, recovery tube 27 Upper end is connected with receiving hopper, and 27 lower end of recovery tube is provided with receiving vat 28.

As described above, each group of clamping assembly contains a recovery tube 27, when the property of the magnetic elements of the test station When energy test result is unqualified, which is waste product component.Transmission assembly then drives absorbent module 30 integrally to move Dynamic, the absorbent module 30 above the clamping assembly with waste product component then starts air-breathing, which is picked up, and transmits Assembly drives whole absorbent module 30 mobile again, after absorbent module 30 reaches above receiving hopper, adsorbs the absorption of waste product component Component 30 discharges the waste product component, which is recycled in receiving vat 28 after recovery tube 27.

Further, support plate 18 is fixedly connected on the downside of the second pedestal 13, it is fixed to be fixedly connected on the upside of the second pedestal 13 Position block 84, support plate 18 are equipped with the first pilot hole, and locating piece 84 is equipped with the second pilot hole.Absorbent module 30 include: air intake duct 31, Second guide rail 32 and spring 34.Air intake duct 31 is arranged in the first pilot hole and the second pilot hole, and air intake duct 31 is connected with absorption Syringe needle adsorbs syringe needle to adsorb magnetic elements.Second guide rail 32 is parallel to air intake duct 31, and the second guide rail 32 is configured at support It is fixedly connected between plate 18 and locating piece 84 and with the second pedestal 13, guide head 33, guide head 33 is slidably equipped on the second guide rail 32 It is fixedly connected with air intake duct 31.Between guide head 33 and locating piece 84, air intake duct 31 is arranged in spring 34 spring 34.It inhales Attached component 30 further includes the first photoelectric sensor 35, and guide head 33 is fixedly connected with the screening for triggering the first photoelectric sensor 35 Tabula rasa 36, the first photoelectric sensor 35 are fixedly connected with the second pedestal 13.

Spring 34 to adsorb syringe needle and air intake duct 31 with springing stroke, this scheme is a safety measure, so that when passing When the driving force for sending assembly to apply is excessive, this springing stroke can form protection to the present apparatus and magnetic elements, and same The guide head 33 of Shi Yundong can drive barn door 36 to trigger the first photoelectric sensor 35, reach only stopping for the movement immediately, remove Sell the driving force with damaging effect.Also, when drive assembly is static, worker can manually lift air intake duct 31, take Magnetic elements below lower absorption syringe needle.

Further, absorbent module 30 is 1 group more than clamping assembly.So that every time in transmission assembly action process, every group of suction Attached component 30 can be from upper station absorption magnetic elements to next station, and can have tested finish on each station Magnetic elements wait absorbent module 30 conveying so that every group of clamping assembly is all magnetic in test process next time Component is to be detected in the clamping assembly etc., to reach the peak use rate of equipment.

In the attached drawing 3 of this implementation, absorbent module 30 is set as 3 groups, and clamping assembly is set as 2 groups, it may be assumed that in the present embodiment During test machine does performance test to magnetic elements, it is only necessary to which tested magnetic elements reach 2 test stations.

In the present embodiment, the test machine of magnetic elements of the invention further includes package assembling, reference attached drawing 5 and attached drawing 6, The package assembling includes: material strip 41, packaging belt, plastic packaging machine 44 and splicing plate 45.It is equidistantly equipped with for containing magnetism on material strip 41 The encapsulation slot 42 of component, packaging belt encapsulate slot 42 to plastic packaging.Plastic packaging machine 44 is used for plastic packaging band for 41 plastic packaging of material strip.Splicing plate 45 are equipped with splicing groove 46, and material strip 41 is by 46 lower section of splicing groove, and splicing groove 46 is located on the distribution arrangement of clamping assembly, and hopper With the minimum spacing of clamping assembly be equal to adjacent absorbent module 30 the distance between.

It should be strongly noted that by encapsulating module integration in the test machine of this magnetic elements, its object is into one Step ground enhances the safety, integraty and automation of this test machine, using package assembling directly in this survey after being completed It is packaged in test-run a machine, it is not necessary that magnetic elements are moved to other devices, simplify workflow, reduce magnetic elements and exist Detect it is up to standard after the destruction risk that is likely encountered.

Wherein, the encapsulation slot 42 on material strip 41 and material strip 41 is integrally formed, bent but have certain hardness, to magnetism Component has certain support protective effect.In particular, it should be pointed out that after as last group of performance test of splicing groove 46 Absorbent module 30 adsorbs the final destination that magnetic elements reach, that is, the magnetic elements after having detected are all by splicing groove 46 It is fitted into the encapsulation slot 42 of material strip 41.

In the present embodiment, 41 surface of material strip is equipped with material guide hole 411, and material guide hole 411 is arranged in the side of material strip 41；Encapsulation group Part further include: guide pad 47 and guide driving device.Guiding of the guide pad 47 to material strip 41, guide pad 47 have deflector chute, Material strip 41 is arranged in this deflector chute；Guide pad 47 is equipped with guiding feed inlet 471 and guiding discharge port 472.Splicing plate 45 configures In 47 upper surface of guide pad.Guide driving device is slided to drive material strip 41 to be oppositely oriented block 47.Guide drives section apparatus packet Drive roller wheel 51 is included, drive roller wheel 51 is connected with one second driving motor 52.The guiding that drive roller wheel 51 is set to guide pad 47 goes out Material mouth 472 and the downside for being located at material strip 41, the circumferential surface annular spread of drive roller wheel 51 have guide convex block 53；Guide convex block 53 It is arranged in the material guide hole 411 of the material strip 41 of 51 upside of drive roller wheel, the drive roller wheel 51 of rotation is to draw material strip 41.

Also, pressure roller 54 is equipped with above drive roller wheel 51, gap of the material strip 41 between pressure roller 54 and drive roller wheel 51 is worn It crosses, 54 circumferential surface of pressure roller is equipped with annular groove, resigning of the annular groove to guide convex block 53.The configuration of second driving motor 52 In in a first support 55, the first support base 56 is configured in first support 55, the first support base 56 passes through with first support 55 The connection of one elastic supporting member for supporting optical member, pressure roller 54 and the first support base 56 are rotatablely connected.The second photoelectric sensing is configured in first support 55 Device (is not painted), and drive roller wheel 51 is fixedly connected with the Circular gratings 57 to trigger the second photoelectric sensor.

It should be pointed out that material strip 41 is pulled on guide pad 47 and moves under the driving force of drive roller wheel 51, second Driving motor 52 uses stepper motor in the present embodiment, and cooperates Circular gratings 57, so that the angle of rotation that drive roller wheel 51 is each Spend accurate, after thus reaching mobile material strip 41 every time, next encapsulation slot 42 can be reached accurately below splicing groove 46, The magnetic elements that absorbent module 30 is transported are packed into one by one in encapsulation slot 42, are not occurred the encapsulation slot 42 of neglected loading, are mentioned Height encapsulation quality.

In the present embodiment, plastic packaging machine 44 uses heat sealing machine, and air-heater includes hot knife, and heat sealing machine drives configured with the 4th straight line Motivation structure 48.When needing mobile material strip 41, the 4th straight line driving mechanism 48 driving air-heater leaves packaging belt and material strip 41.

In the present embodiment, clamping assembly and magnetic elements transmission assembly are configured in a rack 61, in the rack 61 also Configured with the first material wheel 62, the second material wheel 63 and third material wheel 64.First material wheel 62 is located at 471 outside of guiding feed inlet, material strip 41 lead to guide pad 47 by the first material wheel 62.Second material wheel 63 is located at the upside of guide pad 47, and packaging belt is drawn by the second material wheel 63 To plastic packaging machine 44.Third material wheel 64 is located at 472 outside of guiding discharge port, and the completed belt that plastic packaging is completed is wire-wrapped in third material wheel 64, Third material wheel 64 is connected with the third driving motor 65 for driving third material wheel 64 to rotate.

Further, it is configured with the first guide support wheel 66 between the first material wheel 62 and guiding feed inlet 471, this first is led Expect support wheel 66 to be oriented to material strip 41.The second guide support wheel 67, the second guide support wheel 67 are configured on guide pad 47 To be oriented to packaging belt.Third guide support wheel 68, the third guide are configured between third material wheel 64 and guiding discharge port 472 Support wheel 68 is to be oriented to completed belt.

Without assembling driving device in first material wheel 62 and the second material wheel 63, material strip 41 and packaging belt are in guide driving device With it is i.e. transmittable under the tractive force of third driving motor 65.Secondly, each support wheel cooperates each material wheel work, so that material is taut Directly there is not fold, is conducive to rewinding and encapsulation process.

In the present embodiment, configured with the fibre optical sensor 69 for detecting magnetic elements, Fibre Optical Sensor on guide pad 47 The specific location of device 69 not only may be disposed on guide pad 77, can also be added in positions such as splicing plates 45, to reach pair The accurate detection of each station of material strip 41, guarantees the reliability of encapsulation process.

Referring to attached drawing 2 and attached drawing 7, in the present embodiment, the test machine of magnetic elements of the invention further includes discharging of blowing Mechanism, comprising: work expects pipe 71, air blowing component and carrier block 73.Magnetic elements to be tested are housed in the expects pipe 71 that works.It blows Pneumatic module is configured on a pedestal 72, which makes magnetic elements to blow into the first end of work expects pipe 71 It is mobile to the second end of work expects pipe 71 in work expects pipe 71.Carrier block 73 is configured on the pedestal 72, and carrier block 73 is arranged There is bearing groove 731, bearing groove 731 is to carry the magnetic elements blown out from the second end of work expects pipe 71.Splicing groove 46 In on the distribution arrangement of clamping assembly, and the minimum spacing of hopper and clamping assembly is equal between adjacent absorbent module 30 Distance.

It should be noted that the air blowing discharging mechanism in the present embodiment is the feeding mechanism of this test machine (for absorption group Part 30 provides magnetic elements).This discharging mechanism uses blowing method, will blow loaded on the magnetic elements in expects pipe to carrying In the bearing groove 731 of block 73, the position of bearing groove 731 is magnetic elements to be tested are provided for absorbent module 30 initial Station, all tested magnetic elements are all transferred into clamping assembly since bearing groove 731.Secondly, this test The magnetic elements of machine testing most start all to be contained in expects pipe, be advantageously implemented feeding in this test process act it is automatic Change and realizes.

It should be strongly noted that be integrated into this test machine using this air blowing discharging mechanism as feeding mechanism, Purpose is identical with the purpose of integrated package, is all safety, integraty and the automation for enhancing this test machine, simplifies work Make process, reduces the destruction risk that magnetic elements are likely encountered.

Referring to attached drawing 7 and attached drawing 8, in the present embodiment, air blowing component includes gas-guide tube 74, guide holder 75 and support.Support It is fixedly connected with pedestal 72, guide holder 75 is fixedly connected with support, and gas-guide tube 74 is slidably connected with guide holder 75.Support is fixed to be connected It is connected to the 5th linear drives component 76 for driving gas-guide tube 74.Also, pedestal 72 is fixedly connected with for abutting work material The guide pad 77 of pipe 71, guide pad 77 are set between the second end and carrier block 73 of work expects pipe 71.Guide pad 77 is equipped with and is used for Magnetic elements in the expects pipe 71 that works are directed to the guide through-hole of bearing groove 731.

Gas-guide tube 74 provides air-flow, and the magnetic elements blown in work expects pipe 71 are sent to bearing groove across guide through-hole In 731.Work expects pipe 71 can be connected between gas-guide tube 74 and guide pad 77 by the 5th linear drives component 76.

In the present embodiment, guide component is configured on pedestal 72, guide component includes guide seat and sliding blanking block 81, is led Expect that seat includes the first snap-gauge 82 and the second snap-gauge 83, the first snap-gauge 82 is fixedly connected with locating piece 84, and locating piece 84 is fixedly connected There is the locating convex block 841 for the expects pipe 71 that works.

Deflector chute is formed between first snap-gauge 82 and the second snap-gauge 83, and stand-by expects pipe, deflector chute tool are connected in deflector chute There is opposite end, one end of the deflector chute of relatively close pedestal 72 is set as discharge end, and sliding blanking block 81 is slidedly arranged on discharge end Lower section.

Referring to attached drawing 10- attached drawing 12, sliding blanking block 81 includes for blocking discharge end, preventing that stand-by expects pipe from falling One supporting surface 811 and the second supporting surface 812 for being used to support work expects pipe 71, between discharge end and the first supporting surface 811 Difference in height is less than the thickness of stand-by expects pipe, and the difference in height of the second supporting surface 812 and the first supporting surface 811 is not more than stand-by expects pipe Thickness, the difference in height between discharge end and the second supporting surface 812 are greater than the thickness of stand-by expects pipe, locating convex block 841 and pedestal 72 Between difference in height be greater than work expects pipe 71 thickness, with a thickness of work expects pipe 71 external surface top and bottom spacing.

The sliding path for sliding blanking block 81 is the first relative position to the second relative position.First relative position is the Two supporting surfaces 812 are located at 83 lower section of the second snap-gauge, which is that the second supporting surface 812 is located under locating convex block 841 Side.

The surface of the sliding blanking block 81 connected between the first supporting surface 811 and the second supporting surface 812 is set as platform Terrace 813, step surface 813 make stand-by the stand-by expects pipe for falling to the second supporting surface 812 is pushed to locating convex block 841 Expects pipe becomes new work expects pipe 71 and between step surface 813 and locating convex block 841.

It should be noted that sliding blanking block 81 from the first phase after the magnetic elements in work expects pipe 71 have conveyed Second relative position is slid into position, stand-by expects pipe falls to the second supporting surface 812, and the supporting surface of stand-by expects pipe is from first Support face 811 becomes the second supporting surface 812, and the 5th linear drives component 76 drives gas-guide tube 74 and connector retraction, to decontrol Work expects pipe 71, and the work expects pipe 71 falls to 72 upper surface of pedestal at this time, and sliding feeder pipe is from the second relative position to first Relative position is mobile, and the supporting surface of stand-by expects pipe becomes the first supporting surface 811 again from the second supporting surface 812, while will use Complete former work expects pipe 71 is pushed down from 72 upper surface of pedestal, and the stand-by expects pipe of bottommost becomes new work expects pipe 71.

Further, the 6th linear drives component is configured on pedestal 72, the 6th linear drives component is to drive sliding Blanking block 81 moves.Guide component is set as 2 of Relative distribution, end of the deflector chute to be clamped stand-by expects pipe.6th is straight Line driving assembly includes synchronous plate 1 and the 6th cylinder to drive synchronous plate 1 mobile, synchronous plate 1 and sliding Blanking block 81 is fixedly connected.

It should be noted that setting a pair of for guide component, so that expects pipe stress is more balanced, expects pipe is hollow length Pipe, and centre is equipped with magnetic elements, can not otherwise be easily snapped off by great folding force, above-mentioned mechanical structure guarantees Expects pipe in transmission process can not be by excessive by-local forces.

It should be strongly noted that stand-by expects pipe and work expects pipe 71 are the identical expects pipe equipped with magnetic elements, this 2 names used in application to it are only to show that distinguishing it is in the different location in the present apparatus.

In the present embodiment, the inlet end of gas-guide tube 74 is connected with tracheae adapter, and the outlet side of gas-guide tube 74 is fixedly connected There is the connector be connected with gas-guide tube 74, the second support base 78 is configured on pedestal 72, to support connector.Second support base 78 are provided with pilot hole, and connector is slidedly arranged in pilot hole.

It should be noted that tracheae adapter connects the blower of promising 74 air blast of gas-guide tube, and control is connected in pipeline The valve of air-flow opening and closing, so that gas-guide tube 74 is intermittent air blast in work expects pipe 71；Connector uses rubber in one embodiment Material makes it have certain leakproofness.

In the present embodiment, guide pad 77 is provided with pin hole, pin hole be conducted in guide through-hole from 77 outer surface of guide pad and Positioned at the discharge end of guide pad 77.Configured with only component is stopped on pedestal 72, only stops component and include positioning pin and determine for driving Position pin moves back and forth the 7th linear drives component 79 in pin hole, and positioning pin is to abut the magnetic first device in guide through-hole Part.

Further, the 8th linear drives component 710 is configured on pedestal 72, referring to attached drawing 9, the 8th linear drives component 710 to drive carrier block 73 to be connected to guide pad 77 or carrier block 73 driven to make to move far from guide pad 77.

It should be noted that after air-flow blows the magnetic elements positioned at guide through-hole end to holding groove, the Seven linear drives components 79 driving positioning pin, which protrudes into pin hole, is connected to magnetic elements in guide through-hole；Carrier block 73 not When leaving guide pad 77, the magnetic elements in bearing groove 731 can prevent the magnetic elements of guide through-hole end at this time from Guide through-hole end is fallen, and before the 8th linear drives component 710 driving carrier block 73 is removed, positioning pin supports magnetic elements It is connected in guide through-hole, removes rear magnetic elements so as to avoid carrier block 73 and fallen from guide through-hole, so that the present apparatus It is stable and reliable in work, magnetic elements will not be caused to waste.

In the present embodiment, waste material backgauge component is configured in rack 61, waste material backgauge component is to from quilt on pedestal 72 Sliding blanking block 81 pushes away the limit for dropping down onto the expects pipe of the work in rack 61 71.Referring to attached drawing 2, waste material backgauge component includes a pair of of gear Expect bar 711 and a pair of of striker plate 712, the cross spacing to guide bar to the expects pipe 71 that works, this is to stock guide to work The longitudinal spacing of expects pipe 71.The work expects pipe 71 for having been conveyed magnetic elements is prevented to be scattered everywhere as a result,.

For the embodiment of the present invention, light guide structure is not limited to certainly given by the present embodiment, works as leaded light When structure is adjusted based on design of the invention, correspondingly, light emitting device, therapeutic equipment, beauty mask and integrated therapeutical system Structure can make corresponding adjustment, be all not limited to given by the present embodiment.

It is above-described to be also only the preferred embodiment of the present invention, it is not intended to restrict the invention, for this field Technical staff for, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made What modification, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (32)

1. a kind of magnetic elements transmit assembly, characterized in that include:

First order driving assembly is configured on a pedestal, makees back and forth movement to drive one first pedestal to prolong a first direction；With And

Second level driving assembly is configured at first pedestal, is different from the one of the first direction to drive one second pedestal to prolong Second direction makees back and forth movement, which includes several for adsorbing the absorbent module of magnetic elements.

2. magnetic elements according to claim 1 transmit assembly, characterized in that the first order driving assembly includes first Straight line driving mechanism, the second level driving assembly include second straight line driving mechanism.

3. magnetic elements according to claim 2 transmit assembly, characterized in that the first straight line driving mechanism includes:

First guide rail makees back and forth movement to guide first pedestal to prolong the first direction, which fixes with the pedestal Connection；And

Screw rod, the screw rod are threadedly coupled with first pedestal, which is configured with the first driving electricity to drive screw rod to rotate Machine.

4. magnetic elements according to claim 2 transmit assembly, characterized in that the second straight line driving mechanism includes the Two cylinders make back and forth movement to drive second pedestal to prolong the second direction, second cylinder and the fixed company of first pedestal It connects, which prolongs the second direction with second cylinder and be slidably connected.

5. a kind of test machine of magnetic elements, characterized in that including any one of several clamping assemblies and claim 1-4 institute The magnetic elements transmission assembly stated, the absorbent module is to transport magnetic elements to clamping assembly；The clamping assembly includes Probe is tested, the clamping assembly is to drive the pin of the test probe and magnetic elements to connect.

6. the test machine of magnetic elements according to claim 5, characterized in that the absorbent module prolong be parallel to this first The direction in direction is equally spaced, which, which prolongs, is parallel to the direction of the first direction and is equally spaced, the adjacent absorption group The distance between part is equal to adjacent the distance between the clamping assembly.

7. the test machine of magnetic elements according to claim 5, characterized in that the clamping assembly includes:

Positioning head, the positioning head are recessed with locating slot, positioning of the locating slot to magnetic elements, which is equipped with connection The probe through-hole of the locating slot；

Synchronization blocks, the synchronization blocks are fixedly connected with the test probe；And

Third straight line driving mechanism, to drive the synchronization blocks to drive the test probe motion.

8. the test machine of magnetic elements according to claim 7, characterized in that the pin of the magnetic elements is divided into The two sides of the magnetic elements, the clamping assembly are equipped with a pair of synchronization blocks, which is distributed in the positioning both sides of head, should Third straight line driving mechanism is provided parallel to clamping jaw, which includes a pair of of clamping jaw ontology, the synchronization blocks and the clamping jaw sheet Body is fixedly connected.

9. the test machine of magnetic elements according to claim 7, characterized in that the positioning head, the synchronization blocks, the third Straight line driving mechanism is configured on a clamping base, is also configured with recovery tube on the clamping base, and the recovery tube is to recycle inspection Underproof magnetic elements are surveyed, which is connected with receiving hopper, which is provided with receiving vat.

10. the test machine of magnetic elements according to claim 4, characterized in that be fixedly connected on the downside of second pedestal There is support plate, be fixedly connected with positioning plate on the upside of second pedestal, which is equipped with the first pilot hole, which is equipped with the Two pilot holes；

The absorbent module includes:

Air intake duct, the air intake duct are arranged in first pilot hole and second pilot hole, which is connected with absorption syringe needle, The absorption syringe needle is to adsorb magnetic elements；

Second guide rail, second guide rail are parallel to the air intake duct, which is configured between the support plate and the positioning plate And be fixedly connected with second pedestal, it is slidably equipped with guide head on second guide rail, which is fixedly connected with the air intake duct；With And

Spring, the spring are located between the guide head and the positioning plate, which is arranged in the spring.

11. the test machine of magnetic elements according to claim 10, characterized in that the absorbent module further includes the first light Electric transducer, the guide head are fixedly connected with the barn door for triggering first photoelectric sensor.

12. the test machine of magnetic elements according to claim 6, characterized in that the absorbent module is than the clamping assembly More 1 groups.

13. the test machine of magnetic elements according to claim 12, characterized in that it further include package assembling, the encapsulation Component includes:

Material strip is equidistantly equipped with the encapsulation slot for containing magnetic elements on the material strip；

Packaging belt, to the plastic packaging encapsulation slot；

Plastic packaging machine is used for the plastic packaging band for the material strip plastic packaging；And

Splicing plate, the splicing plate are equipped with splicing groove, and the material strip is by below the splicing groove, which is located at the clamping assembly On distribution arrangement, and the minimum spacing of the hopper and the clamping assembly be equal to the adjacent absorbent module the distance between.

14. the test machine of magnetic elements according to claim 13, characterized in that the tape surface is equipped with material guide hole；

The package assembling further include:

Guide pad, to the guiding of the material strip, which is equipped with guiding feed inlet and guiding discharge port；The splicing plate is configured at The guide pad upper surface；And

Guide driving device, to drive the material strip to slide with respect to the guide pad；It includes drive roller wheel that the guide, which drives section apparatus, The drive roller wheel is connected with one second driving motor；The drive roller wheel is set to the guiding discharge port of the guide pad and is located at the material The circumferential surface annular spread of the downside of band, the drive roller wheel has guide convex block；The guide convex block is arranged in the drive roller wheel In the material guide hole of the material strip of side, the drive roller wheel of rotation is to draw the material strip.

15. the test machine of magnetic elements according to claim 14, characterized in that be equipped with pressure above the drive roller wheel Roller, gap of the material strip between the pressure roller and the drive roller wheel pass through, which is equipped with annular groove, the annular Resigning of the groove to guide convex block.

16. the test machine of magnetic elements according to claim 15, characterized in that second driving motor is configured at one The first support base, first support base and the first support is configured in first support, in the first support to prop up by an elasticity Support member connection, the pressure roller and first support base are rotatablely connected.

17. the test machine of magnetic elements according to claim 16, characterized in that be configured with second in the first support Photoelectric sensor, the drive roller wheel are fixedly connected with the Circular gratings to trigger second photoelectric sensor.

18. the test machine of magnetic elements according to claim 14, characterized in that the plastic packaging machine uses heat sealing machine, should Air-heater includes hot knife, and heat sealing machine is configured with the 4th straight line driving mechanism.

19. the test machine of magnetic elements according to claim 14, characterized in that the clamping assembly and the first device of the magnetism Part transmission assembly is configured in a rack, and the first material wheel, the second material wheel and third material wheel are also configured in the rack；First material Wheel is located on the outside of the guiding feed inlet, which leads to the guide pad by first material wheel；Second material wheel is located at the guide pad Upside, which leads to plastic packaging machine by the second material wheel；The third material wheel is located on the outside of the guiding discharge port, what plastic packaging was completed Completed belt is wire-wrapped in the third material wheel, which is connected with the third driving motor for driving the third material wheel to rotate.

20. the test machine of magnetic elements according to claim 19, characterized in that first material wheel and the guiding are fed The first guide support wheel is configured between mouthful, to be oriented to the material strip；The second guide support wheel is configured on the guide pad, to It is oriented to the packaging belt；Third guide support wheel is configured between the third material wheel and the guiding discharge port, to be oriented to the finished product Band.

21. the test machine of magnetic elements according to claim 14, characterized in that configured with for examining on the guide pad Survey the fibre optical sensor of magnetic elements.

22. the test machine of magnetic elements according to claim 14, characterized in that it further include air blowing discharging mechanism, packet It includes:

Work expects pipe, and magnetic elements to be tested are housed in the work expects pipe；

Air blowing component is configured on a pedestal, to blow into the first end of the work expects pipe, makes magnetic elements in the work Make mobile to the second end of the work expects pipe in expects pipe；And

Carrier block is configured on the pedestal, which is provided with bearing groove, and the bearing groove is to carry from the work expects pipe The magnetic elements of second end blowout；The splicing groove is located on the distribution arrangement of the clamping assembly, and the hopper and the clamping The minimum spacing of component is equal to adjacent the distance between the absorbent module.

23. the test machine of magnetic elements according to claim 22, characterized in that the air blowing component include gas-guide tube, Guide holder, support, the support are fixedly connected with the pedestal, which is fixedly connected with the support, the gas-guide tube and the guiding Seat is slidably connected；The support is fixedly connected with the 5th linear drives component for driving the gas-guide tube.

24. the test machine of magnetic elements according to claim 23, characterized in that the pedestal is fixedly connected with for supporting The guide pad of the work expects pipe is connect, which is set between second end and the carrier block of the work expects pipe；The guide pad Equipped with the guide through-hole for the magnetic elements in the work expects pipe to be directed to the bearing groove.

25. the test machine of magnetic elements according to claim 24, characterized in that be configured with guide group on the pedestal Part, the guide component include guide seat and sliding blanking block, which includes the first snap-gauge and the second snap-gauge, first snap-gauge It is fixedly connected with locating piece, which is fixedly connected with the locating convex block for the work expects pipe；

Deflector chute is formed between first snap-gauge and second snap-gauge, stand-by expects pipe is connected in the deflector chute, deflector chute tool There is opposite end, one end of the deflector chute of relatively close pedestal is set as discharge end, which is slidedly arranged on the discharge end Lower section；

The sliding blanking block includes for blocking the discharge end, the first supporting surface for preventing stand-by expects pipe from falling and being used to support Second supporting surface of the work expects pipe, the difference in height between the discharge end and first supporting surface are less than the thickness of the stand-by expects pipe Degree, the difference in height of second supporting surface and first supporting surface are not more than the thickness of the stand-by expects pipe, the discharge end and this second Difference in height between supporting surface is greater than the thickness of the stand-by expects pipe, and the difference in height between the locating convex block and the pedestal is greater than the work Make the thickness of expects pipe, it should be with a thickness of the spacing of the work expects pipe external surface top and bottom；

The sliding path of the sliding blanking block be the first relative position to the second relative position, first relative position be this second Supporting surface is located at below second snap-gauge, which is that second supporting surface is located at below the locating convex block；

The surface of the sliding blanking block connected between first supporting surface and second supporting surface is set as step surface；It should Step surface becomes the stand-by expects pipe newly the stand-by expects pipe for falling to second supporting surface is pushed to the locating convex block Work expects pipe and between the step surface and the locating convex block.

26. the test machine of magnetic elements according to claim 25, characterized in that be configured with the 6th straight line on the pedestal Driving assembly, to drive the sliding blanking block to move.

27. the test machine of magnetic elements according to claim 26, characterized in that the guide component is set as opposite point 2 of cloth, end of the deflector chute to be clamped the stand-by expects pipe；

6th linear drives component includes synchronous plate one and the 6th cylinder to drive the synchronous plate one mobile, the synchronization Plate one is fixedly connected with the sliding blanking block.

28. the test machine of the magnetic elements according to claim 24 or 27, characterized in that the inlet end of the gas-guide tube connects It is connected to tracheae adapter, the outlet side of the gas-guide tube is fixedly connected with the connector be connected with the gas-guide tube, configures on the pedestal There is the second support base, to support the connector；Second support base is provided with pilot hole, which is slidedly arranged on the pilot hole It is interior.

29. the test machine of the magnetic elements according to claim 24 or 27, characterized in that the guide pad is provided with pin Hole, the pin hole are conducted to the discharge end in the guide through-hole and being located at the guide pad from the guide pad outer surface；

On the pedestal configured with only stop component, should only stop component include positioning pin and for drive the positioning pin move back and forth in The 7th linear drives component in the pin hole, the positioning pin is to abut the magnetic elements in the guide through-hole.

30. the test machine of the magnetic elements according to claim 24 or 27, characterized in that be configured with the 8th on the pedestal Linear drives component, to drive the carrier block to be connected to the guide pad or the carrier block is driven to make to move far from the guide pad.

31. the test machine of the magnetic elements according to claim 24 or 27, characterized in that be configured with waste material in the rack Backgauge component, to be pushed away the limit for dropping down onto the expects pipe of the work in the rack by the sliding blanking block from the pedestal.

32. the test machine of magnetic elements according to claim 31, characterized in that the waste material backgauge component includes a pair Material blocking rod and a pair of of striker plate, the cross spacing to guide bar to the expects pipe that works, this is to stock guide to the expects pipe that works Longitudinal spacing.