CN205418969U - A vibration dish for autofilter magnetic core - Google Patents

Abstract

The utility model provides a vibration dish for autofilter magnetic core, involving vibrations dish body, controller and magnetic core screening unit, vibration dish body be including the track that is used for carrying the magnetic core, magnetic core screening unit is including being used for discerning the optical fiber sensing device of unusual magnetic core and the air jet system that is used for blowing out unusual magnetic core normal magnetic core, the optical fiber sensing device is located the track top, the air jet system include with gas pocket that the optical fiber sensing device corresponds and with the jet -propelled equipment that the gas pocket is connected, the optical fiber sensing device with jet -propelled equipment respectively with the controller electricity is connected. The utility model provides a a vibration dish for autofilter magnetic core type is in according to orientation way in orbit marshalling one by one of randomly arranged's magnetic core enough originally, obtains the magnetic core that the orientation accords with the regulation, for next process gets ready, does not follow -uply need the manual work to sort, and degree of automation is high, can reach the function of autofilter, has improved the work efficiency of vibration dish.

Description

A kind of vibrating disk for automatic screening magnetic core

Technical field

This utility model relates to electronic equipment manufacturing technical field, is specifically related to a kind of vibrating disk for automatic screening magnetic core.

Background technology

Inductance core is also called magnetic core, is one of the core building block of inductance, for coiling inductance coil.

Currently in order to improve the performance of magnetic core, often carrying out end silver on magnetic core surface, during magnetic core end silver, need to deliver in charging tray by magnetic core, owing to magnetic core workpiece volume is little, manual feeding operation is more difficult and inefficient.At present, in industry, many use vibrating disks carry out feeding, but traditional vibrating disk does not have the function of screening magnetic core, owing to magnetic core is three-dimensional, there is front, reverse side, the different direction such as perpendicular, horizontal, the magnetic core direction that conventional vibration dish is transported in charging tray may inconsistent with regulation, the follow-up magnetic core also needing to carry out manual sorting to get rid of these incorrect arrangements, cause production efficiency relatively low, therefore, it is necessary to provide a kind of can be with the vibrating disk of automatic screening magnetic core.

Summary of the invention

The purpose of this utility model is to provide a kind of vibrating disk that may be used for automatic screening magnetic core.This vibrating disk being used for automatic screening magnetic core can solve the problem that existing vibrating disk production efficiency is relatively low.

In order to solve the problems referred to above, this utility model provides a kind of vibrating disk for automatic screening magnetic core, including vibrating disk body, controller and cores measunng unit, described vibrating disk body includes the track for carrying magnetic core, described cores measunng unit includes the fibre-optical sensing device for identifying abnormal magnetic core and for abnormal magnetic core is blown out the air jet system of normal magnetic core, described fibre-optical sensing device is located at above described track, described air jet system includes the pore corresponding with described fibre-optical sensing device and the air injection equipment being connected with described pore, described fibre-optical sensing device and described air injection equipment electrically connect with described controller respectively.

Exception magnetic core is converted to normal magnetic core simultaneously by described cores measunng unit identification exception magnetic core or is excluded abnormal magnetic core by the described vibrating disk for automatic screening magnetic core that this utility model provides.

Preferably, the quantity of described fibre-optical sensing device and the pore corresponding with described fibre-optical sensing device is multiple.

Preferably, described magnetic core includes first surface and the second surface being oppositely arranged, and described second surface offers wire casing, and first surface and the second surface of described magnetic core are rectangle.

Preferably, described abnormal magnetic core includes reverse side magnetic core and plane of structure magnetic core, when described reverse side magnetic core is described magnetic core orbital motion, described first surface contacts the magnetic core formed with track bottom surface, when described plane of structure magnetic core is described magnetic core orbital motion, the magnetic core of the length direction of described magnetic core formation parallel with the direction of motion of described magnetic core.

Preferably, described fibre-optical sensing device includes the first fiber optic sensing devices for identifying described reverse side magnetic core and for identifying the second fiber optic sensing devices of described plane of structure magnetic core, described first fiber optic sensing devices and described second sensing equipment are evenly distributed on above described track, described air jet system include corresponding to the first fiber optic sensing devices for by reverse side magnetic core blow out front magnetic core the first pore and corresponding to the second fiber optic sensing devices be used for by plane of structure magnetic core blow out vertical plane magnetic core the second pore, when described front magnetic core is described magnetic core orbital motion, described second surface contacts the magnetic core formed with track bottom surface, when described vertical plane magnetic core is described magnetic core orbital motion, the magnetic core that the direction of motion of the length direction of described magnetic core and described magnetic core vertically forms.

Preferably, described track includes bottom surface and the side adjacent with described bottom surface, and described first pore is arranged on the bottom surface of described track, and described second pore is arranged on the side of described track.

Preferably, described vibrating disk body also includes that disk, described disk are used for loading magnetic core.

Preferably, described cores measunng unit also includes screening block, described screening block includes first surface, described first surface is provided with the track of depression, described track is provided with groove more deeper than described track, the width of described groove is less than the width of described track, the length that the width of described track is perpendicular in its direction of motion with described vertical plane magnetic core adapts, when described vertical plane magnetic core is described magnetic core orbital motion, the magnetic core that the direction of motion of the length direction of described magnetic core and described magnetic core vertically forms, when described vertical plane magnetic core is through described screening block, described vertical plane magnetic core continues to move to along described track, when described plane of structure magnetic core is through described screening block, in described plane of structure magnetic core landing extremely described disk.

Preferably, described screening block tilts to disk direction, and the angle of described inclination is 40-80 degree.

Preferably, the width of the length that described vertical plane magnetic core is perpendicular in its direction of motion and described track is same as or slightly smaller than the width of described track, the length that described plane of structure magnetic core is perpendicular in its direction of motion width less than track and the width slightly larger than groove.

The vibration dish-type for automatic screening magnetic core that this utility model provides enough incites somebody to action the rambling magnetic core of script according to certain orientation marshalling the most one by one, direction must be arrived and meet the magnetic core of regulation, get ready for subsequent processing processing, follow-up being not required to manually is sorted, automaticity is high, the function of automatic screening can be reached, improve the work efficiency of vibrating disk.

Accompanying drawing explanation

The vibrating tray structure schematic diagram for automatic screening magnetic core that Fig. 1 provides for this utility model；

The structural representation of the magnetic core that Fig. 2 provides for this utility model；

The structural representation of the vertical plane magnetic core that Fig. 3 provides for this utility model；

The structural representation of the plane of structure magnetic core that Fig. 4 provides for this utility model；

The vibrating tray structure schematic diagram including multiple cores measunng unit that Fig. 5 provides for this utility model；

The enlarged drawing of the screening block that Fig. 6 provides for this utility model；

The process schematic of the screening block screening plane of structure magnetic core that Fig. 7 provides for this utility model；

The A-A sectional view of the screening block that Fig. 8 provides for this utility model.

Detailed description of the invention

The following stated is preferred implementation of the present utility model; it should be pointed out that, for those skilled in the art, on the premise of without departing from this utility model principle; can also make some improvements and modifications, these improvements and modifications are also considered as protection domain of the present utility model.

The vibrating tray structure schematic diagram for automatic screening magnetic core that Fig. 1 provides for this utility model；As shown in Figure 1, a kind of vibrating disk for automatic screening magnetic core that this utility model provides, including vibrating disk body 1, controller (not shown) and cores measunng unit 2, vibrating disk body 1 includes the track 11 being provided with for carrying magnetic core, cores measunng unit 2 includes the fibre-optical sensing device 3 for identifying abnormal magnetic core and for abnormal magnetic core is blown out the air jet system 4 of normal magnetic core, fibre-optical sensing device 3 is located at above track, air jet system 4 includes the pore 41 corresponding with fibre-optical sensing device and the air injection equipment (not shown) being connected with pore, fibre-optical sensing device and air injection equipment are electrically connected with the controller respectively.

Air injection equipment structure does not limits, and can provide air-flow for pore.

The structural representation of the magnetic core that Fig. 2 provides for this utility model；As in figure 2 it is shown, magnetic core 5 includes first surface 51 and the second surface 52 being oppositely arranged, second surface 52 offers wire casing 53, and first surface 51 and the second surface 52 of magnetic core are rectangle.

The structural representation of the vertical plane magnetic core that Fig. 3 provides for this utility model；The structural representation of the plane of structure magnetic core that Fig. 4 provides for this utility model, the arrow in Fig. 3 and Fig. 4 represents the direction of motion of magnetic core.

Abnormal magnetic core includes reverse side magnetic core and plane of structure magnetic core, when reverse side magnetic core is magnetic core orbital motion, first surface contacts the magnetic core formed, when plane of structure magnetic core is magnetic core orbital motion, the magnetic core of the length direction of magnetic core formation parallel with the direction of motion of magnetic core with track bottom surface.

Normal magnetic core is front magnetic core and is vertical plane magnetic core.

When front magnetic core is magnetic core orbital motion, second surface contacts the magnetic core formed with track bottom surface, when vertical plane magnetic core is magnetic core orbital motion, and the magnetic core that the length direction of magnetic core and the direction of motion of magnetic core vertically form.Magnetic core as shown in Figure 3 is vertical plane magnetic core, and magnetic core as shown in Figure 4 is plane of structure magnetic core.

Specifically, fibre-optical sensing device includes light source and fiber amplifier.

When magnetic core is through fibre-optical sensing device position, the light that fibre-optical sensing device light source sends is radiated at magnetic core surface, owing to the magnetic core of different directions is different to the reflecting properties of light, the optical signal of magnetic core surface reflection changes into signal of telecommunication numerical value by fiber amplifier, when this signal of telecommunication numerical value is different with the specified value that fibre-optical sensing device is arranged, when i.e. fibre-optical sensing device detects abnormal magnetic core, signal is delivered to controller by fibre-optical sensing device, air injection equipment is started by controller, in air injection equipment, air-flow blows magnetic core by pore, thus changes the direction of magnetic core.

Fibre-optical sensing device is existing conventional sensing device.

Specifically, fibre-optical sensing device includes the first fiber optic sensing devices for identifying reverse side magnetic core and for identifying the second fiber optic sensing devices of plane of structure magnetic core, first fiber optic sensing devices and the second sensing equipment are evenly distributed on above track, air jet system include corresponding to the first fiber optic sensing devices for by reverse side magnetic core blow out front magnetic core the first pore and corresponding to the second fiber optic sensing devices be used for by plane of structure magnetic core blow out vertical plane magnetic core the second pore.

Different pores can provide air-flow by one or more air injection equipment.

Specifically, track includes bottom surface and the side adjacent with bottom surface, and the first pore is arranged on the bottom surface of track, and the second pore is arranged on the side of track.

Specifically, when reverse side magnetic core is at the first fiber optic sensing devices, the light that first fiber optic sensing devices light source sends is radiated at the second surface of reverse side magnetic core, owing to the second surface of reverse side magnetic core is provided with wire casing, dulling luminosity ratio is bigger, intensity of reflected light just diminishes, reflection light changes into signal of telecommunication numerical value through fiber amplifier, this signal of telecommunication numerical value is different with the specified value that sensor is arranged, this signal is transferred into controller, and controller will control to start air injection equipment, and gas blows magnetic core bottom surface by pore, magnetic core is turned over, thus obtains front magnetic core.

Specifically, when vertical plane magnetic core is at the second fiber optic sensing devices, when the light that light source sends is radiated on vertical plane magnetic core, luminous point is to beat in the centre position of vertical plane magnetic core, when plane of structure magnetic core is at light source, luminous point is to beat the marginal position at plane of structure magnetic core, the absorbance of marginal position different with the absorbance in centre position (uneven during the surface of magnetic core), therefore, the optical signal produced is different, the signal of telecommunication numerical value that plane of structure magnetic core produces is different with the specified value that sensor is arranged, this signal is transferred into controller, controller will control to start air injection equipment, gas blows magnetic core side by pore, thus obtain vertical plane magnetic core.

The vibrating tray structure schematic diagram including multiple cores measunng unit that Fig. 5 provides for this utility model；The enlarged drawing of the screening block that Fig. 6 provides for this utility model；The process schematic of the screening block screening plane of structure magnetic core that Fig. 7 provides for this utility model；The A-A sectional view of the screening block that Fig. 8 provides for this utility model.

As it is shown in figure 5, vibrating disk body also includes disk 12, disk is used for loading magnetic core.

As shown in Fig. 5, Fig. 6, Fig. 7 and Fig. 8, in order to improve screening precision further, cores measunng unit also includes screening block 6, screening block 6 includes that first surface 61, first surface 61 are provided with the track 62 of depression, and track 62 is the continuity of the track in vibrating disk body, size shape is all identical with the track of vibrating disk body, the length that the width of track is perpendicular in its direction of motion with vertical plane magnetic core adapts, and is provided with groove 63 more deeper than track in track 62, and the width of groove is less than the width of track.

The width L1 of the length that vertical plane magnetic core is perpendicular in its direction of motion and track is same as or slightly smaller than the width L1 of track, the length that plane of structure magnetic core is perpendicular in its direction of motion width L1 less than track and the width L2 slightly larger than groove.

As shown in Figure 7 and Figure 8, when vertical plane magnetic core, (the right magnetic core in such as Fig. 7 and the figure a) in Fig. 8 are through screening block, the width L1 of the length being perpendicular in its direction of motion due to vertical plane magnetic core and track is same as or slightly smaller than the width L1 of track, therefore vertical plane magnetic core is parallel with the bottom surface of rail contact with track bottom surface, and it can be along track bottom surface smoothly onwards transmission.And the length width less than track being perpendicular in its direction of motion due to plane of structure magnetic core and the width L2 slightly larger than groove.This plane of structure magnetic core is (if the left side magnetic core in Fig. 7 and the figure b) in Fig. 8 are while falling into another side in groove floor and being arranged on track bottom surface, owing to the bottom surface of groove and track bottom surface be not in approximately the same plane, the most now plane of structure magnetic core bottom surface be uneven, easily stick up, in the case of vibrations and screening block situation about tilting to disk easily de-orbits, disk is fallen into.Final screening block realizes the screening to plane of structure magnetic core.

Screening block is arranged on the end of this track body of vibrating disk, or replaces the track of certain length.

Screening block tilts to disk direction, and the angle of inclination is 40-80 degree.

The quantity of screening block is multiple.

Track is spiral path, and spiral path includes the first end and the second end, and the first end is connected with disk, and the second end end connects screening block.

The quantity of fibre-optical sensing device and the pore corresponding with fibre-optical sensing device is multiple.

As shown in Figure 5, specifically, this utility model cores measunng unit includes the first fiber optic sensing devices 31 for identifying reverse side magnetic core, for identifying the second fiber optic sensing devices 32 of plane of structure magnetic core, for identifying the 3rd fiber optic sensing devices 33 and the screening block 6 of screening plane of structure magnetic core of reverse side magnetic core, corresponding with the first fiber optic sensing devices, the second fiber optic sensing devices and the 3rd fiber optic sensing devices, track is additionally provided with the first pore the 42, second pore 43 and the 3rd pore 44.

nullThe operation principle of the vibrating disk for automatic screening magnetic core that this utility model provides is: be placed in disk by a large amount of magnetic cores，Through vibration，Magnetic core injection is also moved along track，When magnetic core is through the first fiber optic sensing devices，First fiber optic sensing devices identification reverse side magnetic core，And by the first pore, reverse side magnetic core is blown out front magnetic core，Then magnetic core is through the second fiber optic sensing devices，Second fiber optic sensing devices identification plane of structure magnetic core，And by the second pore, plane of structure magnetic core is blown out vertical plane magnetic core，Then magnetic core is through the 3rd fiber optic sensing devices，3rd fiber optic sensing devices identification reverse side magnetic core，And by the 3rd pore, reverse side magnetic core is blown out front magnetic core，Last magnetic core is through screening block，Plane of structure magnetic core is directly returned and follow-up in disk again screens by screening block，By this cores measunng unit，Abnormal cores measunng can be removed，Obtain normal magnetic core，Contribute to being processed further of follow-up magnetic core.The vibrating disk automaticity for automatic screening magnetic core that this utility model provides is higher, substantially increases the work efficiency of existing vibrating disk.

Embodiment described above only have expressed several embodiments of the present utility model, and it describes more concrete and detailed, but therefore can not be interpreted as the restriction to this utility model the scope of the claims.It should be pointed out that, for the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be as the criterion with claims.

Claims (10)

1. the vibrating disk for automatic screening magnetic core, it is characterized in that, including vibrating disk body, controller and cores measunng unit, described vibrating disk body includes the track for carrying magnetic core, described cores measunng unit includes the fibre-optical sensing device for identifying abnormal magnetic core and for abnormal magnetic core is blown out the air jet system of normal magnetic core, described fibre-optical sensing device is located at above described track, described air jet system includes the pore corresponding with described fibre-optical sensing device and the air injection equipment being connected with described pore, described fibre-optical sensing device and described air injection equipment electrically connect with described controller respectively.

2. the vibrating disk for automatic screening magnetic core as claimed in claim 1, it is characterised in that the quantity of described fibre-optical sensing device and the described pore corresponding with described fibre-optical sensing device is multiple.

3. the vibrating disk for automatic screening magnetic core as claimed in claim 1, it is characterised in that described magnetic core includes first surface and the second surface being oppositely arranged, and described second surface offers wire casing, and first surface and the second surface of described magnetic core are rectangle.

4. the vibrating disk for automatic screening magnetic core as claimed in claim 3, it is characterized in that, described abnormal magnetic core includes reverse side magnetic core and plane of structure magnetic core, when described reverse side magnetic core is described magnetic core orbital motion, described first surface contacts the magnetic core formed with track bottom surface, when described plane of structure magnetic core is described magnetic core orbital motion, the magnetic core of the length direction of described magnetic core formation parallel with the direction of motion of described magnetic core.

null5. the vibrating disk for automatic screening magnetic core as claimed in claim 4，It is characterized in that，Described fibre-optical sensing device includes the first fiber optic sensing devices for identifying described reverse side magnetic core and for identifying the second fiber optic sensing devices of described plane of structure magnetic core，Described first fiber optic sensing devices and described second fiber optic sensing devices are evenly distributed on above described track，Described air jet system include corresponding to the first fiber optic sensing devices for by reverse side magnetic core blow out front magnetic core the first pore and corresponding to the second fiber optic sensing devices be used for by plane of structure magnetic core blow out vertical plane magnetic core the second pore，When described front magnetic core is described magnetic core orbital motion，Described second surface contacts the magnetic core formed with track bottom surface，When described vertical plane magnetic core is described magnetic core orbital motion，The magnetic core that the direction of motion of the length direction of described magnetic core and described magnetic core vertically forms.

6. the vibrating disk for automatic screening magnetic core as claimed in claim 5, it is characterized in that, described track includes bottom surface and the side adjacent with described bottom surface, and described first pore is arranged on the bottom surface of described track, and described second pore is arranged on the side of described track.

7. the vibrating disk for automatic screening magnetic core as claimed in claim 5, it is characterised in that described vibrating disk body also includes that disk, described disk are used for loading magnetic core.

8. the vibrating disk for automatic screening magnetic core as claimed in claim 7, it is characterized in that, described cores measunng unit also includes screening block, described screening block includes first surface, described first surface is provided with the track of depression, described track is provided with groove more deeper than described track, the width of described groove is less than the width of described track, the length that the width of described track is perpendicular in its direction of motion with described vertical plane magnetic core adapts, when described vertical plane magnetic core is described magnetic core orbital motion, the magnetic core that the direction of motion of the length direction of described magnetic core and described magnetic core vertically forms, when described vertical plane magnetic core is through described screening block, described vertical plane magnetic core continues to move to along described track, when described plane of structure magnetic core is through described screening block, in described plane of structure magnetic core landing extremely described disk.

9. the vibrating disk for automatic screening magnetic core as claimed in claim 8, it is characterised in that described screening block tilts to disk direction, and the angle of described inclination is 40-80 degree.

10. the vibrating disk for automatic screening magnetic core as claimed in claim 9, it is characterized in that, the width of the length that described vertical plane magnetic core is perpendicular in its direction of motion and described track is same as or slightly smaller than the width of described track, the length that described plane of structure magnetic core is perpendicular in its direction of motion width less than track and the width slightly larger than groove.