CN209321882U - With groove type material screens vibrating disk - Google Patents

Abstract

The utility model relates to a kind of with groove type materials to screen vibrating disk.It includes disk body, air blowing component and fiber optical sensing assemblies that the with groove type material, which screens vibrating disk, disk body is provided with sieve material track, disk body is used to that with groove type material to be driven to expect moving on rails in sieve along predetermined direction when vibrated, air blowing component and fiber optical sensing assemblies are respectively arranged on disk body, wherein, the gas hole of air blowing component is located on the side wall of sieve material track, towards gas hole, air blowing component is used to supply gas when the reflective light intensity of fiber optical sensing assemblies exceeds threshold value light intensity to gas hole with groove type material to blow off and sieves material track the fibre-optical probe of fiber optical sensing assemblies.Above-mentioned with groove type material screens vibrating disk, compact-sized reasonable, can in time filter out the material of align-err, realize accurately material screening, improve the screening efficiency of with groove type material.

Description

With groove type material screens vibrating disk

Technical field

The utility model relates to material Screening Treatment technical fields, screen and vibrate more particularly to a kind of with groove type material Disk.

Background technique

With science and technology and social economy development, scientific and technological progress active influence society economy and change people Life style.In material Screening Treatment technical field, especially the development of with groove type material screening vibration disk technology is to object Material screen selects processing technology field to have a far reaching influence.Fig. 1 is the structural schematic diagram of with groove type material 90, the with groove type material 90 tool There are groove 91, and the side of the groove-shaped material 90 of 91 proximity band of groove.The with groove type material 90 of this type be smart phone, The spare and accessory parts of the equipment such as tablet computer.

Currently, traditional screening to the type material is using mechanical sorting or other sorting modes.For example, the type Material usually carry out unified specification screening arrangement in vibration feeder, and then uniformly each material is exported outward, thus Achieve the purpose that quick sorting.

There is " anti-material " however, traditional sorting mode frequently can lead to material, i.e., partial material is because of vibration feeder False judgment and the material of align-err is screened and is exported, the appearance of " anti-material " will bring the production and processing in later period need not The trouble wanted, it is serious also result in later product assembly it is bad.

Utility model content

Based on this, it is necessary to for how accurately the technical issues of material screening, provide a kind of with groove type material sieve Select vibrating disk.

For the technical problem, the utility model provides a kind of with groove type material screening vibrating disk, the with groove type Material screening vibrating disk includes disk body, air blowing component and fiber optical sensing assemblies, and the disk body is provided with sieve material track, the disk body For driving with groove type material to expect moving on rails, the air blowing component and institute in the sieve along predetermined direction when vibrated It states fiber optical sensing assemblies to be respectively arranged on the disk body, wherein the gas hole of the air blowing component is located at sieve material track Side wall on, towards the gas hole, the air blowing component is used to work as the optical fiber for the fibre-optical probes of the fiber optical sensing assemblies It supplies gas when the reflective light intensity of sensory package exceeds threshold value light intensity to the gas hole described the with groove type material to blow off Sieve material track.

The air blowing component and the fiber optical sensing assemblies are disposed adjacent in one of the embodiments,.

The disk body is additionally provided with the area that gathers materials in one of the embodiments, and the area that gathers materials is located in the disk body Portion region, the sieve material track are located at the side wall of the disk body, area and the sieve material orbit connection of gathering materials.

The air blowing component includes mounting base and gas source connector in one of the embodiments, and the mounting base is installed on On the disk body, the mounting base offers the insufflation channel being connected and gas hole, and gather materials area described in the gas hole direction, The gas source connector is connect with the mounting base, and the gas source connector is connected to the insufflation channel.

The disk body offers resigning breach in sieve material track in one of the embodiments, and the mounting base is embedding Enter the resigning breach and is detachably connected with the disk body.

The mounting base has the sieve material curved surface being obliquely installed in one of the embodiments, and the sieve expects curved surface direction The area that gathers materials.

The peripheral curved of the sieve material curved surface and the sieve material track is mutually agreed in one of the embodiments,.

The gas hole is located at sieve material curved surface in one of the embodiments,.

The mounting base includes the mounting portion being connected and embedding part in one of the embodiments, the mounting portion and The embedding part is respectively positioned on the resigning breach, and the mounting portion is detachably connected with the disk body, the insufflation channel and institute It states gas hole and is respectively arranged at the embedding part.

The mounting portion and the embedding part integral molding in one of the embodiments,.

Above-mentioned with groove type material screens vibrating disk, the intensity size judgement band ditch that fiber optical sensing assemblies pass through reflective light intensity Whether groove profile material is arranged in sieve material track by set queueing discipline, since with groove type material has unique ditch Slot, therefore the received reflective light intensity of fiber optical sensing assemblies has unique threshold value range of light intensity, when the reflected light of fiber optical sensing assemblies Judge that the with groove type material, at this time can be by the align-err by air blowing component for align-err when exceeding threshold value light intensity by force With groove type material, which blows off, sieves material track, so that it is come back to disk body and is screened again.With groove type material screening vibration The material of align-err can be filtered out in time, realize accurately material screening by dish structure compact and reasonable, improve band ditch The screening efficiency of groove profile material.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of with groove type material；

Fig. 2 is the structural schematic diagram that with groove type material screens vibrating disk in one embodiment；

Fig. 3 is the structural schematic diagram at another visual angle that with groove type material screens vibrating disk in one embodiment；

Fig. 4 is the structural schematic diagram of disk body in one embodiment；

Fig. 5 is the structural schematic diagram of air blowing component in one embodiment；

Fig. 6 is the structural schematic diagram at another visual angle of air blowing component in one embodiment；

Fig. 7 is the structural schematic diagram of fiber optical sensing assemblies in one embodiment.

Specific embodiment

To keep the above objects, features, and advantages of the utility model more obvious and easy to understand, with reference to the accompanying drawing to this The specific embodiment of utility model is described in detail.Many details are explained in the following description in order to abundant Understand the utility model.But the utility model can be implemented with being much different from other way described herein, this field Technical staff can do similar improvement without prejudice to the utility model connotation, therefore the utility model is not by following public affairs The limitation for the specific embodiment opened.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", The orientation or positional relationship of the instructions such as " clockwise ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " is based on the figure Orientation or positional relationship is merely for convenience of describing the present invention and simplifying the description, rather than the dress of indication or suggestion meaning It sets or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to the utility model Limitation.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include at least one this feature.The meaning of " plurality " is at least two, such as two in the description of the present invention, It is a, three etc., unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be Mechanical connection, is also possible to be electrically connected；It can be directly connected, two can also be can be indirectly connected through an intermediary The interaction relationship of connection or two elements inside element, unless otherwise restricted clearly.For the common skill of this field For art personnel, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.

In the present invention unless specifically defined or limited otherwise, fisrt feature is in the second feature " on " or " down " It can be that the first and second features directly contact or the first and second features are by intermediary mediate contact.Moreover, first is special Sign can be fisrt feature above the second feature " above ", " above " and " above " and be directly above or diagonally above the second feature, or only Indicate that first feature horizontal height is higher than second feature.Fisrt feature under the second feature " below ", " below " and " below " can be with It is that fisrt feature is directly under or diagonally below the second feature, or is merely representative of first feature horizontal height less than second feature.

It should be noted that it can be directly another when element is referred to as " being fixed on " or " being set to " another element On one element or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be with It is directly to another element or may be simultaneously present centering elements.Term as used herein " vertically ", " level ", "upper", "lower", "left", "right" and similar statement for illustrative purposes only, be not offered as being uniquely to implement Mode.

2 are please referred to, the utility model provides a kind of with groove type material screening vibrating disk 10, with groove type material sieve Selecting vibrating disk 10 includes disk body 100, air blowing component 200 and fiber optical sensing assemblies 300, and disk body 100 is provided with sieve material track 121, Disk body 100 is blown for driving the with groove type material 90 to move on sieve material track 121 when vibrated along predetermined direction Component 200 and fiber optical sensing assemblies 300 are respectively arranged on disk body 100, and the gas hole 212 of air blowing component 200 is located at sieve material rail On the side wall in road 121, the fibre-optical probe 340 of fiber optical sensing assemblies 300 is towards gas hole 212, and air blowing component 200 is for working as optical fiber It supplies gas when the reflective light intensity of sensory package 300 exceeds threshold value light intensity to gas hole 212 with groove type material to blow off and sieves material rail Road 121 makes it come back to disk body 100 and is screened again.

Above-mentioned with groove type material screens vibrating disk 10, and fiber optical sensing assemblies 300 are sentenced by the intensity size of reflective light intensity Whether disconnected with groove type material is arranged in sieve material track 121 by set queueing discipline, as shown in Figure 1, due to groove Type material 90 has unique groove 91, therefore the received reflective light intensity of fiber optical sensing assemblies 300 has unique threshold value light intensity model Enclose, when the reflective light intensity of fiber optical sensing assemblies 300 exceed threshold value light intensity when judge the with groove type material for align-err, at this time The with groove type material of the align-err can be blown off by air blowing component 200 and sieve material track 121, it is made to come back to disk body 100 are screened again.The with groove type material screens vibrating tray structure compact and reasonable, can be in time by the material of align-err It filters out, realizes accurately material screening, improve the screening efficiency of with groove type material.

As shown in Figures 2 and 3, disk body 100 includes the edge edge support of support bottom 110 and self-supporting bottom 110 Annular side portions 120 made of the axial side of bottom 110 extends support the surface of bottom 110 rounded, annular side portions 120 The sieve material track 121 for the groove-shaped material of conveyer belt is provided on inner wall, such as sieve material track 121 is spiral shape.In band ditch Groove profile material screens in the use process of vibrating disk, and with groove type material first enters support bottom 110 by hopper (not shown) Central area, subsequent with groove type material vibrating formula are moved to the edge of support bottom 110, then the edge from support bottom 110 It is moved to oscillatory type on the sieve material track 121 of annular side portions 120, and then oscillatory type is moved to and sieve material 121 output end of track In connected straight vibration feeding track (not shown).

Disk body 100 is additionally provided with the area 111 that gathers materials in one of the embodiments, and the area 111 that gathers materials is located in disk body 100 Portion region, specifically, the area 111 that gathers materials are located at the central area of support bottom 110.Sieve material track 121 is located at the side of disk body 100 Wall, specifically, sieve material track 121 are located on the inner wall of annular side portions 120.Gather materials area 111 with sieve material track 121 be connected to.In band In the use process of groove-shaped material screening vibrating disk, with groove type material first enters the area 111 that gathers materials by hopper, then from support bottom It is moved on the sieve material track 121 of annular side portions 120 to the edge vibration formula in portion 110, and then oscillatory type is moved to and sieve material rail On the connected straight vibration feeding track of 121 output end of road.

There is " anti-material " it is appreciated that traditional sorting mode frequently can lead to material, i.e., partial material is because of vibration feeding The false judgment of machine and the material of align-err is screened and is exported, the appearance of " anti-material " will bring the production and processing in later period Unnecessary trouble, it is serious also result in later product assembly it is bad.It should be noted that in the utility model, with groove Type material 90, should when having the one of groove 91 to face outwardly and being located at the top of sieve material track 121 when sieve material track 121 arranges With groove type material 90 is that arrangement is correct, other arrangement modes in addition to this are align-err, because arranging correct object Material has unique arrangement mode, therefore after the irradiation of fiber optical sensing assemblies 300 arranges correct material, received reflective light intensity Intensity also there is unique threshold value range of light intensity, and then can be by air blowing component 200 by the with groove type object of the align-err Material, which blows off, sieves material track 121, so that it is come back to disk body 100 and is screened again.

Air blowing component 200 is set on disk body 100, and specifically, 200 installation settings of air blowing component is in annular side portions 120. Air blowing component 200 and fiber optical sensing assemblies 300 are disposed adjacent in one of the embodiments,.Air blowing component 200 is connected to gas source Device (not shown), in the course of work of with groove type material screening vibrating disk, when the reflective light intensity of fiber optical sensing assemblies 300 When beyond threshold value light intensity, compressed air source unit is supplied gas to air blowing component 200, i.e., compressed air source unit is supplied gas to gas hole 212 with by with groove Type material, which blows off, sieves material track 121, so that it is come back to disk body 100 and is screened again.

Also referring to Fig. 3, Fig. 4, Fig. 5 and Fig. 6, specifically, air blowing component 200 includes mounting base 210 and gas source connector 220, mounting base 210 is installed on disk body 100, and mounting base 210 offers the insufflation channel 211 being connected and gas hole 212, is blown Stomata 212 is connect towards the area 111 that gathers materials, gas source connector 220 with mounting base 210, and gas source connector 220 is connected to insufflation channel 211, Gas source connector 220 with compressed air source unit for connecting, so that compressed air source unit can supply gas to gas hole 212.It is corresponding, disk body 100 in Sieve material track 121 offers resigning breach 122, specifically, annular side portions 120 offer resigning breach 122.Mounting base 210 is embedding Enter resigning breach 122 and be detachably connected with disk body 100, specifically, mounting base 210 is embedded in resigning breach 122 and and annular side Portion 12 is detachably connected, for example, being connect by screw with annular side portions 120.Air blowing component 200 can be made to be embedded in annular in this way Side 120, so that with groove material can pass through air blowing component 200.Further, mounting base 210 has the sieve being obliquely installed Expect that curved surface 213, sieve expect curved surface 213 towards the area 111 that gathers materials.Further, gas hole 212 is located at sieve material curved surface 213.Further Ground, sieve material curved surface 213 and sieve material track 121 peripheral curved mutually agree with, i.e., sieve expect track 121 peripheral curved because open up And excalation, and then completion sieve expects the peripheral curved of track 121 to sieve material curved surface 213, expects that curved surface 213 becomes sieve and expects rail so that sieving A part of the peripheral curved in road 121 need to pass through the sieve material curved surface 213, in turn when moving to such with groove material vibrating formula Material track 121 is sieved convenient for the with groove type material of align-err blows off by air blowing component 200, it is made to come back to disk body 100 are screened again.

Further, mounting base 210 includes the mounting portion 214 being connected and embedding part 215, mounting portion 214 and embedding part 215 are respectively positioned on resigning breach 122, and mounting portion 214 is detachably connected with disk body 100, and insufflation channel 211 and gas hole 212 are distinguished It is set to embedding part 215.215 integral molding of mounting portion 214 and embedding part in one of the embodiments,.Further, pacify Dress portion 214 and embedding part 215 form T-type structure, corresponding, and resigning breach 122 is T-type structure, and resigning breach 122 includes installation Mouth 1221 and insertion mouth 1222, resigning breach 122 are located at sieve and expect 121 top of track, and insertion mouth 1222 is located at sieve and expects 121 bottom of track Portion, mounting portion 214 agree with installing port 1221, and embedding part 215 is agreed with insertion mouth 1222.It in this way can be preferably by mounting base 210 are stably and fixedly mounted on disk body 100, so that air blowing component 200 can work at steady-state, to improve sieve material Working efficiency.

Referring to Figure 2 together, Fig. 3, Fig. 4 and Fig. 7,300 installation settings of fiber optical sensing assemblies is on disk body 100, specifically, 300 installation settings of fiber optical sensing assemblies is in annular side portions 120.Fiber optical sensing assemblies 300 include in one of the embodiments, Adjustment seat 310, mounting blocks 320, positioning column 330 and fibre-optical probe 340, the neighbouring sieve material track 121 of adjustment seat 310 are installed on disk On body 100, specifically, the neighbouring sieve material track 121 of adjustment seat 310 is installed in annular side portions 120.Mounting blocks 320 are slidably installed In in adjustment seat 310, positioning column 330 is connect with mounting blocks 320, and fibre-optical probe 340 is removably mounted on positioning column 330.This Sample, which can be convenient, is rapidly mounted on fiber optical sensing assemblies 300 on disk body 100, improves packaging efficiency.

Adjustment seat 310, which offers, in one of the embodiments, adjusts through slot 313, and adjustment seat 310 is provided with adjusting bolt 314, it adjusts bolt 314 and is actively located in and adjust through slot 313, adjust bolt 314 for wearing and adjust through slot 313 and by adjustment seat 310 are fixed on disk body 100, for example, annular side portions 120, which offer, adjusts screw hole 123, adjust bolt 314 and successively wear to adjust and lead to Adjustment seat 310 is fixed on disk body 100 by slot 313 and adjusting screw hole 123.Further, adjustment seat 310 includes the adjusting being connected Portion 311 and interconnecting piece 312 adjust through slot 313 and are opened in adjustment portion 311, and adjustment portion 311 is by adjusting bolt 314 and disk body 100 Connection.Interconnecting piece 312 is far from disk body 100, i.e., interconnecting piece 312 is far from annular side portions 120, specifically, interconnecting piece 312 is located at annular The top of side 120 may make between fibre-optical probe 340 and sieve material track 121 there is default spacing, in this way in order to groove The mobile logical sieving materials track 121 of material vibrating formula.

Adjustment seat 310 is L-type structure in one of the embodiments,.Further, adjustment portion 311 and interconnecting piece 312 1 The molding of body formula, can be improved the structural strength of entire adjustment seat 310 and easy to produce in this way.

Interconnecting piece 312 is provided with caging bolt 315 in one of the embodiments, and mounting blocks 320 offer installation through slot 321, caging bolt 315 wears installation through slot 321 and mounting blocks 320 is fixed on interconnecting piece 312.Pass through caging bolt in this way 315 and installation through slot 321 can be according to default between actual screening environment adjustment fibre-optical probe 340 and sieve material track 121 Spacing, to improve the accuracy of material screening.

Positioning column 330 is removably mounted to mounting blocks 320 in one of the embodiments, and positioning column 330 is located at installation The one end of block 320 far from adjustment portion 311.Further, positioning column 330 is equipped with positioning bolt 331 and offers probe through-hole 332, positioning bolt 331 is movably set in positioning column 330, and the movable end of positioning bolt 331 is located at probe through-hole 332, optical fiber Probe 340 wears probe through-hole 332, and the movable end of positioning bolt 331 is abutted with fibre-optical probe 340 to consolidate fibre-optical probe 340 It is scheduled on positioning column 330.Installation fibre-optical probe 340 that in this way can be more convenient improves assembling convenient for the assembling of complete machine Efficiency.

Further, fibre-optical probe 340 has optical fiber probe 341, the bending setting of optical fiber probe 341,341 court of optical fiber probe It is arranged to gas hole 212, and the spacing of the end of optical fiber probe 341 and sieve material track 121 is greater than the thickness of with groove type material, It in this way can be to avoid the movement of the groove-shaped material of 341 barrier strip of optical fiber probe.It is appreciated that fibre-optical probe 340 is for connecting light Fiber sensor (not shown), the end of optical fiber probe 341 are provided with transmitting terminal and receiving end, and it is special that transmitting terminal can be launched Light beam, such as infrared light etc., receiving end can be received by the infrared signal after the reflection of with groove type material different surfaces Equal reflective light intensities.Air blowing component 200 is connected to compressed air source unit.When fibre optical sensor passes through the reflection that fibre-optical probe 340 receives The intensity of light intensity be not preset threshold value range of light intensity when, compressed air source unit starts at once and by air blowing component 200 by the arrangement The with groove type material of mistake, which blows off, sieves material track 121, so that it is come back to disk body 100 and is screened again, is realized accurate Ground material screening improves the screening efficiency of with groove type material.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of with groove type material screens vibrating disk, including disk body, the disk body is provided with sieve material track, and the disk body is used for With groove type material is driven to expect moving on rails in the sieve along predetermined direction when vibrated, which is characterized in that further include blowing Pneumatic module and fiber optical sensing assemblies, the air blowing component and the fiber optical sensing assemblies are respectively arranged on the disk body, wherein The gas hole of the air blowing component is located on the side wall of the sieve material track, and the fibre-optical probes of the fiber optical sensing assemblies is towards institute Gas hole is stated, the air blowing component is used for when the reflective light intensity of the fiber optical sensing assemblies exceeds threshold value light intensity to the air blowing It supplies gas so that the blow off sieve of the with groove type material is expected track in hole.

2. with groove type material according to claim 1 screens vibrating disk, which is characterized in that the air blowing component and described Fiber optical sensing assemblies are disposed adjacent.

3. with groove type material according to claim 1 screens vibrating disk, which is characterized in that the disk body is additionally provided with collection Expect that area, the area that gathers materials are located at the central region of the disk body, the sieve material track is located at the side wall of the disk body, described to gather materials Area and the sieve expect orbit connection.

4. with groove type material according to claim 3 screens vibrating disk, which is characterized in that the air blowing component includes peace Dress seat and gas source connector, the mounting base are installed on the disk body, the mounting base offer the insufflation channel that is connected and Gas hole, the gas hole gather materials area described in, and the gas source connector is connect with the mounting base, and the gas source connector and The insufflation channel connection.

5. with groove type material according to claim 4 screens vibrating disk, which is characterized in that the disk body is expected in the sieve Track offers resigning breach, and the mounting base is embedded in the resigning breach and is detachably connected with the disk body.

6. with groove type material according to claim 5 screens vibrating disk, which is characterized in that the mounting base has inclination The sieve material curved surface of setting, the sieve expect the area that gathers materials described in curved surface direction.

7. with groove type material according to claim 6 screens vibrating disk, which is characterized in that the sieve expect curved surface with it is described The peripheral curved of sieve material track is mutually agreed with.

8. with groove type material according to claim 7 screens vibrating disk, which is characterized in that the gas hole is located at described Sieve material curved surface.

9. with groove type material according to claim 8 screens vibrating disk, which is characterized in that the mounting base includes being connected The mounting portion and embedding part connect, the mounting portion and the embedding part are respectively positioned on the resigning breach, the mounting portion with it is described Disk body is detachably connected, and the insufflation channel and the gas hole are respectively arranged at the embedding part.

10. with groove type material according to claim 9 screens vibrating disk, which is characterized in that the mounting portion and described Embedding part integral molding.