CN208004332U - Rod type element sorting mechanism - Google Patents
Rod type element sorting mechanism Download PDFInfo
- Publication number
- CN208004332U CN208004332U CN201820022870.2U CN201820022870U CN208004332U CN 208004332 U CN208004332 U CN 208004332U CN 201820022870 U CN201820022870 U CN 201820022870U CN 208004332 U CN208004332 U CN 208004332U
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- sliding
- rod type
- type element
- screening
- pedestal
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Abstract
The utility model discloses a kind of rod type element sorting mechanism, including pedestal screens module with the linear drive apparatus on pedestal, sliding and enters materials and parts.The side of pedestal is equipped with substandard products discharging groove body and non-defective unit discharging groove body, enter materials and parts and is located at pedestal upper end, enter the feed chute for being equipped in materials and parts and being slid for rod type element, the outlet of feed chute is located on substandard products discharging groove body, linear drive apparatus drives sliding screening module opposite base to slide up and down, sliding screens the material guiding parts that module includes hollow and equipped with the screening tank slipped over for straight rod type element, screening tank is connected to feed chute when sliding to highest order on sliding screening module, one end of material guiding parts is connected to screening tank, and the other end is located on non-defective unit discharging groove body.This rod type element sorting mechanism is realized using element dead weight and is slid, and is screened to rod type element without being driven to element, and by screening tank, can automatically, accurately be excluded the rod type element of bending.
Description
Technical field
The utility model is related to a kind of Component screening equipment more particularly to a kind of rod type element sorting mechanisms.
Background technology
Magnetic core refers to a kind of sintering magnetic metal oxide being made of various iron oxide mixtures, is set for various electronics
In standby coil and transformer.The size of magnetic core is generally smaller, and have many magnetic cores be club shaped structure, these rod cores
Produce in enormous quantities, during conveying, inevitably has some and be bent.If the magnetic core of bending flows to electronic equipment assembler
In sequence, it will assembly is caused to fail so that assembly line, which need to pause, carries out troubleshooting, greatly reduces operating efficiency.The magnetic core of bending
The related device of damage electronic equipment is even also possible in assembling process.For other rod type elements, this is equally existed
One problem.
Therefore, it is necessary to which providing a kind of automatic screening and can exclude the sorting mechanism of curved rod champion part.
Utility model content
Automatic screening and the sorting mechanism of curved rod champion part can be excluded the purpose of this utility model is to provide a kind of.
To achieve the goals above, the utility model provides a kind of rod type element sorting mechanism, including pedestal be set to
Linear drive apparatus, sliding on the pedestal screen module and enter materials and parts;The side of the pedestal is equipped with substandard products discharging groove body
Discharge groove body with non-defective unit, it is described enter materials and parts be located at the pedestal upper end, it is described enter materials and parts in equipped with entering for what rod type element slid
The outlet of hopper, the feed chute is located on substandard products discharging groove body, and the linear drive apparatus drives the sliding to be sieved
The relatively described pedestal of modeling group slides above and below, and the sliding screens the material guiding parts that module includes hollow and equipped with for directly rodlike
The screening tank that element slips over, the sliding are screened screening tank when sliding to highest order on module and are connected to the feed chute, institute
The one end for stating material guiding parts is connected to the screening tank, and the other end is located on non-defective unit discharging groove body.
When being screened, sliding screening module, which slides into highest order, makes screening tank be connected to feed chute, and to be screened is rodlike
Element slided to after entering feed chute from upper end sliding screening module, the size of screening tank it is corresponding with rod type element norminal size and only
Straight rod type element can be passed through.If rod type element without bending, then can pass through screening tank and enter material guiding parts, finally
It is sent in non-defective unit discharging groove body by material guiding parts.If rod type element has bending, then its whole lateral dimension is bigger than normal, cannot be introduced into
Into screening tank, driving is slided screening module and glided by linear drive apparatus, which drops into from feed chute outlet
Substandard products discharge in groove body.To sum up, this rod type element sorting mechanism is realized using element dead weight and is slid, without being driven to element
It is dynamic, and rod type element is screened by screening tank, automatically, accurately the rod type element of bending can be excluded.
Preferably, the pedestal has an inclined mounting surface, it is described enter materials and parts be fixed on the mounting surface and make described
Feed chute tilts, and the sliding screening module is slidably connected on the mounting surface and the screening tank is made to tilt.
Preferably, it is described enter materials and parts side wall be equipped with the detection through-hole for being connected to the feed chute, the pedestal is equipped with one
The sensor of through-hole is detected described in face.
Specifically, the sensor, which is slidably set on the pedestal and end of the sensor, can pass through the detection
Through-hole heads into the feed chute.
Preferably, the upper end of the pedestal is additionally provided with one stroke switch, when the sliding screening module slides into highest order
It contradicts the travel switch and the linear drive apparatus is braked.
Preferably, the substandard products discharge groove body by opposite both side plate, be fixed on the two side plate rear ends back plate and
One foreboard is surrounded, and a side plate is fixed with the pedestal, and the foreboard is fixed with sliding screening module and can be two
It is slided between the side plate.
Preferably, the pedestal is equipped with guide rail, the sliding screening module includes being slidably connected on the guide rail
Sliding seat, the material guiding parts are fixed with the sliding seat, and a screening jig is accommodated in the sliding seat, and the screening tank opens up
In the screening jig.
Preferably, further include a thimble being arranged upward, sliding screening module thimble insertion when sliding down
In the screening tank, the entrance that the sliding screening module is located at screening tank when lowest order is located at substandard products discharging groove body
On.
Preferably, the pedestal is fixed on a rack, a vibrating disk is additionally provided in the rack, the vibrating disk
Discharging track enters materials and parts upper end described in being connected to.
Specifically, the pedestal is fixed on a rack, is additionally provided in the rack positioned at non-defective unit discharging groove body
Non-defective unit material collecting box under outlet and the substandard products material collecting box under the outlet of substandard products discharging groove body.
Description of the drawings
Fig. 1 is the stereogram of the utility model rod type element sorting mechanism.
Fig. 2 is bar-like the stereogram of another angle of Component screening mechanism.
Fig. 3 is the stereogram into materials and parts.
Fig. 4 is the schematic diagram after sliding screening module is dismantled from pedestal.
Fig. 5 is the explosive view of sliding screening module.
Fig. 6 be Fig. 1 rod type element sorting mechanism in sliding screening module slide into the schematic diagram of highest order.
Fig. 7 be Fig. 2 rod type element sorting mechanism in sliding screening module slide into the schematic diagram of highest order.
Fig. 8 is bar-like the schematic diagram that Component screening mechanism is used cooperatively with hopper, vibrating disk.
Specific implementation mode
Description is made to the preferred embodiment of the utility model with reference to the Figure of description provided.
As shown in Figure 1 and Figure 2, the utility model provides a kind of rod type element sorting mechanism, for being carried out to rod type element a
It screens and automatically rejects the rod type element a to bend.Rod type element sorting mechanism includes pedestal 1 and is set on pedestal 1
Linear drive apparatus 2, sliding screening module 3 and enter materials and parts 4.The side of pedestal 1 is equipped with substandard products discharging groove body 51 and goes out with non-defective unit
The position of hopper body 52, wherein substandard products discharging groove body 51 is located on non-defective unit discharging groove body 52, substandard products discharging groove body 51 and non-defective unit
Discharging groove body 52 can be oriented to respectively to falling into rod type element a therein, and element is made to discharge from different directions.
Enter materials and parts 4 and be located at 1 upper end of pedestal, in conjunction with shown in Fig. 3, enters to be equipped in materials and parts 4 and run through the feed chute into materials and parts 4 up and down
41, rod type element a slide into feed chute 41 from the upper end for entering materials and parts 4 and are slid from the lower end for entering materials and parts 4.The size of feed chute 41
Maximum transverse size after bending more than rod type element a, therefore the substandard products that either straight non-defective unit rod type element a is still bent
Rod type element a can enter and slip over feed chute 41.The outlet of feed chute 41 is located on substandard products discharging groove body 51, if do not have
There are other structures to intervene the outlet of feed chute 41, then the rod type element a skidded off from the outlet of feed chute 41 will drop into secondary
Product discharge in groove body 51.
Sliding screening module 3, which is slidable in the vertical direction, to be installed on pedestal 1, and linear drive apparatus 2 drives sliding screening mould
Group 3 is slided on pedestal 1, and sliding screening module 3 can slide down to a lowest order or upward sliding to a highest order, in highest
Sliding screening module 3 is very close when position or is in direct contact into materials and parts 4.Sliding screening module 3 includes a hollow structure and both ends
The outlet of the material guiding parts 30 of opening, material guiding parts 30 is located on non-defective unit discharging groove body 52, when sliding screening module 3 is located at highest order
When export the straight rod type element a (i.e. non-defective unit) that skids off from feed chute 41 and can slide into sliding screening module 3 by material guiding parts 30
Guiding and fall into non-defective unit discharging groove body 52 in.
With continued reference to Fig. 1, Fig. 2 and Fig. 4 is combined, there is inclined mounting surface 11, mounting surface 11 are equipped on pedestal 1 along upper
The guide rail 12 that lower direction extends, guide rail 12 are preferably equipped with two.Enter materials and parts 4 by other structures it is padded be fixed on mounting surface
On 11, to make in materials and parts 4 feed chute 41 oblique, feed chute 41 substantially with 12 keeping parallelism of guide rail.Sliding screening mould
Group 3 includes a sliding seat 31, and two interfacing parts 32 are arranged in sliding seat 31, two interfacing parts 32 respectively with the sliding pair of two guide rails 12
It connects, sliding of the sliding screening module 3 on pedestal 1 is realized by this structure.Linear drive apparatus 2 is adopted in the present embodiment
It is fixedly connected with sliding seat 31 with the piston rod of cylinder, cylinder, therefore sliding screening module 3 is up slided when piston rod stretches out
Dynamic, when piston rod bounces back, sliding screening module 3 slides down.In other embodiments, linear drive apparatus 2 can also
It is the structure that the devices or feed screw nut etc. such as electric pushrod, straight line slide unit can realize linear drives.The upper end of pedestal 1 is additionally provided with
The effect of one stroke switch 19, travel switch 19 is to provide the trigger signal braked to linear drive apparatus 2.
In conjunction with Fig. 4, Fig. 5, sliding screening module 3 further includes the screening jig 33 being contained within sliding seat 31, and screening is controlled
Screening tank 34 is offered in tool 33, the size of screening tank 34 is matched with straight rod type element a norminal sizes, therefore is bent rodlike
Element a can not be by screening tank 34 since lateral dimension is too big, and only non-defective unit can be slipped over from screening tank 34.Screening tank 34
It is also oblique with as the feed chute 41 being positioned above.Screening jig 33 is contained in sliding seat 31 using dismountable mode
Within, the different screening jig 33 of 34 size of screening tank can be conveniently replaced according to actual needs.Material guiding parts 30 are both ends opens
Hollow structure, one end of which is fixed on sliding seat 31, the other end extends downwardly on non-defective unit discharging groove body 52.After material guiding parts 30
It is penetratingly provided with one on wall and penetrates hole 301, penetrates the position face screening tank 34 in hole 301.Fig. 1 is looked back, in the side of pedestal 1
It is further fixed on a thimble 18 being arranged upward, the upper end of thimble 18, which is inserted upwardly into, to be penetrated in hole 301, and the length of thimble 18
Meet such require:When sliding screening module 3 is located at lowest order, thimble 18 is also further inserted into screening tank 34, works as cunning
Thimble 18 then exits screening tank 34 when dynamic screening module 3 is located at highest order.
Substandard products discharge groove body 51 by opposite both side plate 511, be fixed on the back plate 512 and one of 511 rear end of both side plate before
Plate 513 is surrounded, and wherein side plate 511 is fixed with pedestal 1, and foreboard 513 is then fixed on the sliding seat 31 of sliding screening module 3
On, and the position of foreboard 513 will be more on the lower compared to the entrance of screening tank 34.Before when sliding screening module 3 slides on pedestal 1
Plate 513 slidably reciprocates among both side plate 511, no matter slide screening module 3 be in any position (including highest order with it is minimum
Position) screening tank 34 entrance be all located at substandard products discharging groove body 51 on.
The course of work for introducing this rod type element sorting mechanism with previous relevant drawings in conjunction with Fig. 6, Fig. 7 is as follows:
Before starting screening, linear drive apparatus 2 up pushes sliding screening module 3, when 31 contacting travel of sliding seat
For 19 feedback signal of travel switch to the central control system of equipment, central control system just sends out signal by linear drive apparatus 2 when switch 19
Braking.The module 3 of sliding screening at this time is located at highest order, and the outlet of the entrance and feed chute 41 of screening tank 34 is signified herein
" connection " and non-limiting screening jig 33 centainly with both enter materials and parts 4 and contact, and refer to position face.Rodlike member to be screened
Part a enters in feed chute 41 from upper end and is slid downwards by dead weight, then can be straight if rod type element a is non-defective unit without bending
It connects across screening tank 34 and is dropped into non-defective unit non-defective unit discharging groove body 52 by the guiding of material guiding parts 30.If rod type element a is deposited
It is being bent, then its whole lateral dimension is bigger than normal, cannot be introduced into screening tank 34, linear drive apparatus 2 slides driving at this time
It screens module 3 to glide, substandard products rod type element a will be exported from feed chute 41 to be dropped into substandard products discharging groove body 51.There is part curved
Bent rod type element a can enter in screening tank 34 and be stuck in screening jig 33, in the process that sliding screening module 3 slides down
Middle thimble 18 can be inserted by penetrating hole 301 in screening tank 34, and the rod type element a ejections being stuck in screening tank 34 are fallen
Enter in discharging groove body 51 to substandard products, it is ensured that all substandard products are screened out.Certainly, thimble 18 is not the essential element for being mechanism,
The product of clamping stagnation can be discharged by manual type.
Fig. 1 to Fig. 3 is reviewed, is additionally provided with a sensor 14 in the upper end of pedestal 1, the test side of sensor 14 faces pan feeding
A set detection through-hole 43 on the side wall of part 4, detection through-hole 43 is connected to feed chute 41, and is detected through-hole 43 and arrived feed chute
The distance in 41 exits is more than the length of a rod type element a.When being screened, rod type element a is intermittently to serially enter
Enter in materials and parts 4, therefore sensor 14 is able to detect that intermittent signal in the case where being full non-defective unit.Enter when there are substandard products
The outlet of hopper 41 is plugged, and subsequent rod type element a is piled up in feed chute 41, then sensor 14 can detect lasting letter
Number, central control system triggers the downslide of sliding screening module 3 by obtaining this signal.Module 3 is screened for anti-sliding stop to glide
The non-defective unit in feed chute 41 is fallen into company with substandard products in substandard products discharging groove body 51 together afterwards, can sensor 14 be slideably positioned in base
1 row of seat, glide direction are approximately perpendicular to the length direction of feed chute 41, first make sensor before so that sliding screening module 3 is glided
14 ends are inserted into feed chute 41 and that non-defective unit after substandard products are withstood positioning.The sensor 14 after the completion of substandard products exclude
It can reset.Unquestionable, the sensor 14 being arranged in the present embodiment is not that triggering sliding screening module 3 glides only yet
One mode can be arranged other structures in other positions, or even can be triggered by human eye observation and manually.1 upper end of pedestal is additionally provided with
The counter 15 of upper and lower two teams' correlation, to calculate into feed chute 41 number of elements and leave the element of feed chute 41
Quantity.
The screening installation for including this programme rod type element sorting mechanism shown in Fig. 8, pedestal 1 be fixed on a rack 6 it
On, be further fixed in rack 6 positioned at non-defective unit discharging groove body 52 outlet under non-defective unit material collecting box 71 and be located at substandard products blow tank
Substandard products material collecting box 72 under the outlet of body 51.Non-defective unit material collecting box 71 respectively receives non-defective unit and substandard products with substandard products material collecting box 72
Collection.A hopper 8 and a vibrating disk 9 are additionally provided in rack 6, the outlet of hopper 8 is located at 9 top of vibrating disk, the discharging of vibrating disk 9
Track 91 is connected into 4 upper end of materials and parts.Rod type element a falls into vibrating disk 9 after being first introduced into hopper 8, then will by vibrating disk 9
Element arrangements are good to be one by one output in materials and parts 4.
Compared with prior art, in this rod type element sorting mechanism using with the matched screening jig of non-defective unit component size 33
Element is screened, the shunting of non-defective unit and substandard products can be realized, automatically screens out substandard products from non-defective unit, and screened
Automatic landing is realized using element dead weight, in journey without being driven to element.
Above disclosed is only the preferred embodiments of the utility model, and effect is to facilitate those skilled in the art
Understand and implement according to this, the interest field of the utility model cannot be limited with this certainly, therefore special according to the present utility model application
Equivalent variations made by sharp range still fall within the range that the utility model is covered.
Claims (10)
1. a kind of rod type element sorting mechanism, it is characterised in that:Including pedestal on the pedestal linear drive apparatus,
Sliding screens module and enters materials and parts;The side of the pedestal is equipped with substandard products discharging groove body and non-defective unit and discharges groove body, it is described enter materials and parts
Positioned at the pedestal upper end, it is described enter materials and parts in be equipped with the feed chute that is slid for rod type element, the outlet of the feed chute is located at
On the substandard products discharging groove body, the linear drive apparatus drives the sliding screening relatively described pedestal of module to be slided above and below
Dynamic, the sliding screens the material guiding parts that module includes hollow and equipped with the screening tank slipped over for straight rod type element, the sliding
The screening tank is connected to the feed chute when sliding to highest order on screening module, one end of the material guiding parts and the screening tank
Connection, the other end are located on non-defective unit discharging groove body.
2. rod type element sorting mechanism as described in claim 1, it is characterised in that:The pedestal has inclined mounting surface,
It is described enter materials and parts be fixed on the mounting surface and the feed chute made to tilt, described in the sliding screening module is slidably connected to
Tilt the screening tank on mounting surface.
3. rod type element sorting mechanism as described in claim 1, it is characterised in that:It is described enter materials and parts side wall be equipped with connection institute
The detection through-hole of feed chute is stated, the pedestal is equipped with the sensor that through-hole is detected described in a face.
4. rod type element sorting mechanism as claimed in claim 3, it is characterised in that:The sensor is slidably set to the base
On the seat and end of the sensor can be headed by the detection through-hole in the feed chute.
5. rod type element sorting mechanism as described in claim 1, it is characterised in that:The upper end of the pedestal is additionally provided with one stroke
Switch, the sliding screening module contradict the travel switch and are braked to the linear drive apparatus when sliding into highest order.
6. rod type element sorting mechanism as described in claim 1, it is characterised in that:The substandard products discharge groove body by opposite two
Side plate, the back plate for being fixed on the two side plate rear ends and a foreboard are surrounded, and a side plate is fixed with the pedestal, described
Foreboard and sliding screening module are fixed and can be slided between two side plates.
7. rod type element sorting mechanism as described in claim 1, it is characterised in that:The pedestal is equipped with guide rail, the cunning
Dynamic screening module includes the sliding seat being slidably connected on the guide rail, and the material guiding parts are fixed with the sliding seat, the cunning
A screening jig is accommodated in dynamic seat, the screening tank is opened in the screening jig.
8. rod type element sorting mechanism as described in claim 1, it is characterised in that:Further include a thimble being arranged upward, institute
It states thimble when sliding screening module slides down to be inserted into the screening tank, when the sliding screening module is located at lowest order
The entrance of the screening tank is located on substandard products discharging groove body.
9. rod type element sorting mechanism as described in claim 1, it is characterised in that:The pedestal is fixed on a rack,
Be additionally provided with a vibrating disk in the rack, the discharging track of the vibrating disk be connected to it is described enter materials and parts upper end.
10. rod type element sorting mechanism as described in claim 1, it is characterised in that:The pedestal is fixed on a rack,
Be additionally provided in the rack positioned at the non-defective unit discharging groove body outlet under non-defective unit material collecting box and positioned at the substandard products discharge
Substandard products material collecting box under groove body outlet.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820022870.2U CN208004332U (en) | 2018-01-04 | 2018-01-04 | Rod type element sorting mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820022870.2U CN208004332U (en) | 2018-01-04 | 2018-01-04 | Rod type element sorting mechanism |
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CN208004332U true CN208004332U (en) | 2018-10-26 |
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CN201820022870.2U Active CN208004332U (en) | 2018-01-04 | 2018-01-04 | Rod type element sorting mechanism |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108031654A (en) * | 2018-01-04 | 2018-05-15 | 广州创芯旗自动化控制设备有限公司 | Rod type element sorting mechanism |
CN109396017A (en) * | 2018-11-16 | 2019-03-01 | 南京仁恒轴承滚动体有限公司 | The screening installation of special-shaped needle roller |
-
2018
- 2018-01-04 CN CN201820022870.2U patent/CN208004332U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108031654A (en) * | 2018-01-04 | 2018-05-15 | 广州创芯旗自动化控制设备有限公司 | Rod type element sorting mechanism |
CN108031654B (en) * | 2018-01-04 | 2024-04-05 | 广州创芯旗自动化控制设备有限公司 | Rod-shaped element screening mechanism |
CN109396017A (en) * | 2018-11-16 | 2019-03-01 | 南京仁恒轴承滚动体有限公司 | The screening installation of special-shaped needle roller |
CN109396017B (en) * | 2018-11-16 | 2023-07-11 | 南京仁恒轴承滚动体有限公司 | Screening equipment for special-shaped rolling needles |
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