CN109396057A - Mixing exception feeding-distribution device - Google Patents
Mixing exception feeding-distribution device Download PDFInfo
- Publication number
- CN109396057A CN109396057A CN201710709763.7A CN201710709763A CN109396057A CN 109396057 A CN109396057 A CN 109396057A CN 201710709763 A CN201710709763 A CN 201710709763A CN 109396057 A CN109396057 A CN 109396057A
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- Prior art keywords
- feeding
- group
- track
- mould group
- distribution device
- Prior art date
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- 239000000463 material Substances 0.000 claims abstract description 48
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims abstract description 36
- 238000007664 blowing Methods 0.000 claims abstract description 30
- 238000001514 detection method Methods 0.000 claims abstract description 26
- 230000009514 concussion Effects 0.000 claims description 26
- 238000012360 testing method Methods 0.000 claims description 7
- 238000007373 indentation Methods 0.000 claims description 4
- 230000002093 peripheral effect Effects 0.000 claims description 3
- 230000001105 regulatory effect Effects 0.000 claims description 3
- 238000007689 inspection Methods 0.000 claims description 2
- 230000002950 deficient Effects 0.000 abstract description 41
- 230000002159 abnormal effect Effects 0.000 abstract description 2
- 238000000034 method Methods 0.000 description 6
- 230000000694 effects Effects 0.000 description 5
- 239000012141 concentrate Substances 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 230000010355 oscillation Effects 0.000 description 2
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 235000013399 edible fruits Nutrition 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000002474 experimental method Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 230000008447 perception Effects 0.000 description 1
- 238000012545 processing Methods 0.000 description 1
- 238000011160 research Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
- B07C5/04—Sorting according to size
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
- B07C5/02—Measures preceding sorting, e.g. arranging articles in a stream orientating
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
- B07C5/34—Sorting according to other particular properties
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
- B07C5/36—Sorting apparatus characterised by the means used for distribution
- B07C5/363—Sorting apparatus characterised by the means used for distribution by means of air
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C2501/00—Sorting according to a characteristic or feature of the articles or material to be sorted
- B07C2501/0009—Sorting of fasteners, e.g. screws, nuts, bolts
Landscapes
- Processing And Handling Of Plastics And Other Materials For Molding In General (AREA)
Abstract
The present invention is a kind of mixing exception feeding-distribution device, equipped with a vibration mould group, one feeding mold group, one sub-material mould group and a detection mould group, the vibration mould group is equipped with a pedestal, one vibration oscillator and a vibrating disc, the feeding mold group combines with the vibration mould group and is equipped with a feed appliance, one feeding track and a material collecting box, the sub-material mould group combines with the vibration mould group and feeding mold group and is equipped with an air-breathing group and an air blowing group, the air-breathing group can be provided in a suction to the feeding track, the air blowing group can be provided in a blowing force to the feeding track, detection mould is mounted in the placement platform and is located at the side of the vibration mould group and towards the feeding mold group, the detection mould group is equipped with a detector towards the feeding track, non-defective unit and defective products can be precisely separated and can save the mixing of time and cost by providing one Abnormal feeding-distribution device.
Description
Technical field
The present invention relates to a kind of mixing exception feeding-distribution device, espespecially a kind of mixing that can be precisely separated non-defective unit and defective products
Abnormal feeding-distribution device.
Background technique
In general, such as nail, screw, nut or bolt lock part, after a large amount of manufactures are completed, and need
Testing process one by one is carried out for each locking part, so as to being distinguished and being separated non-defective unit therein and defective products, in turn
Ensure the processing quality of product and avoids defective products shipment to client, the problem for causing client's perception bad.
The existing mode that sub-material is carried out for locking part, the locking part after manufacture is mainly first arranged, make
It then carries out appearance and size for each locking part by a detection mould group towards same direction and in one arranged in a straight line
Detection is understood and is determined as via the detection mould group when the appearance of the locking part of detection or size are not inconsistent standardization or regulation
Defective products, and a blowning installation is notified to blow out the defective products, so as to reaching a sub-material effect.
However, the feeding-distribution device of existing mixing exception is during use, though defective products can be blown by blowing method
Classify out, but since each locking part is that linear arranged adjacent is detected, works as and blown defective products by blowing method
When out, it is easy to blow out simultaneously with the forward and backward adjacent non-defective unit of the defective products during air blowing, so that blowing out after detecting
Locking part in, being still mingled with non-defective unit need to detect again with defective products, can not provide accurate sub-material effect, relative increase
Time needed for subsequent detection and cost really have it that need to be subject to improvements.
Summary of the invention
Therefore, in view of the feeding-distribution device of existing mixing exception in missing and deficiency in the upper and structure of use, Wu Fada
To accurate sub-material and the puzzlement of time and cost is saved, spy passes through continuous research and experiment, and developing finally a kind of can improve
The present invention of existing missing.
The present invention is a kind of mixing exception feeding-distribution device, is by the structure configuration mode simplified, providing one can be accurate
Sub-material and the mixing exception feeding-distribution device for saving time and cost.
In order to achieve the above objectives, the present invention is to provide a kind of mixing exception feeding-distribution device, is provided with:
One vibration mould group, the vibration mould group are set to the vibration oscillator and one on the pedestal equipped with a pedestal, one
Concussion disk on oscillator and opening up is shaken set on described;
One feeding mold group, the feeding mold group combine with the vibration mould group and are equipped with a feed appliance, a feeding track
And a material collecting box, the feed appliance are set on the pedestal and are located at described in the side of the vibration oscillator and the concussion disk
Feeding track is set on the feed appliance and communicates with the concussion disk, and the material collecting box is to combine and be located at the pedestal
At the lower section of described feeding track one end;
One sub-material mould group, the sub-material mould group combine with the vibration mould group and feeding mold group and be equipped with an air-breathing group and
One air blowing group, the air-breathing are mounted on the pedestal and are connected with the feeding track, are that can provide a suction to institute
It states in feeding track, and the air blowing group is connected on the pedestal and with the feeding track, is that can provide a blowing force
In to the feeding track;And
One detection mould group, the detection mould are mounted in placement platform and are located at the side of the vibration mould group and towards described
Feeding mold group, and the detection mould group is mutually electrically connected with the sub-material mould group, so as to allowing the sub-material mould group can be according to described in
The testing result for detecting mould group carries out actuation, wherein the detection mould group is equipped with a detector towards the feeding track.
Further, foregoing mixing exception feeding-distribution device, the concussion disk offer a notch at outer peripheral edge, and
The concussion disk is recessed with a groove communicated with the notch, the feeding track at the top surface of the corresponding indentation, there
Equipped with a rail bed, the rail bed is set to the top of the feed appliance and one end combines and position with the concussion disk
In the indentation, there, the rail bed is recessed with a track groove, the track groove along the rail bed length direction
Both ends, two lateral walls of the rail bed are extended through and a respectively entrance and an outlet, wherein the track groove
Entrance is communicated with the groove.
Further, foregoing mixing exception feeding-distribution device, the rail bed go out the neighbouring track groove
The perforation that two intervals are arranged and communicate with the track groove is equipped at mouthful, and the feeding track is further provided with a cover board and one
Guide seat, the cover board is the top surface for being covered on the rail bed and the front side edge of the cover board alongst extends to
The top of the track groove makes the front side edge of the cover board cover the part range of the track groove, and the cover board is neighbouring
Longitudinally run through the port communicated equipped with one with the track groove at two perforation of the rail bed, and the guide seat is set to institute
It states the passage port of cover board and is equipped with a leadout hole communicated with the port, and the material collecting box is located at the export of the guide seat
At below hole.
It is preferred that foregoing mixing exception feeding-distribution device, the air-breathing group is equipped with a vacuum generator and a suction
Tracheae, the vacuum generator are combined with the pedestal, and one end of the air intake duct is connected with the vacuum generator, and
The other end of the air intake duct is connected with a wherein perforation for the rail bed far from track groove outlet.
It is preferred that foregoing mixing exception feeding-distribution device, the air blowing group are equipped with a valve seat and gas blow pipe institute
State the side that valve seat combined and be located at the vacuum generator with the pedestal, one end of the gas blow pipe and the valve seat phase
Connection, and the other end of the gas blow pipe is connected with a wherein perforation for the rail bed close to track groove outlet
It connects, makes gas caused by the valve seat, it can be via the gas blow pipe through the track groove and the port and towards the guide
The leadout hole blowout of seat.
It is preferred that foregoing mixing exception feeding-distribution device, the air-breathing group is adjusted in setting one on the valve seat
Valve enters the gas flow of the gas blow pipe so as to adjusting the valve seat.
It is preferred that foregoing mixing exception feeding-distribution device, the material collecting box, the vacuum generator and described
Valve seat is respectively by a L shaped plate and the mutually fixed combination of the pedestal, and each L shaped plate is provided with an at least strip hole and one
With the locking part that an at least strip hole combines, so as to adjusting the vacuum generator, the valve seat and described gathering materials
The position of the relatively described pedestal of box and the feeding track.
It is preferred that foregoing mixing exception feeding-distribution device, the detection mould group are equipped with an ontology, a first adjustment
Group, a second adjustment group and a detector, the ontology are set to the side in the placement platform and being located at the feeding track,
The first adjustment group combines with the ontology and is equipped with one can be relative to the sliding shoe of ontology movement, the second adjustment
It is mounted on the sliding shoe of the first adjustment group and is equipped at least one accurate slide unit, the detector and the second adjustment group
Accurate slide unit combine and be located at the feeding track top at.
It is preferred that foregoing mixing exception feeding-distribution device, the ontology are equipped with a lower fixed seat, two guide rods and one
Upper fixed seat, two guide rod combined with the lower fixed seat and fixed seat and formed one be in rectangle framework, institute
The first adjustment group is stated equipped with an adjustment bar and an adjustment wheel, the adjustment bar be able to rotate with the lower fixed seat and described solid
Reservation combines and between two guide rod, and the sliding shoe is mutually arranged with two guide rod in conjunction with and with the adjustment
Bar, which mutually blocks, sets combination, and the adjustment wheel is combined with one end that the adjustment bar stretches out fixed seat, takes turns the adjustment
The sliding shoe can be driven to move between two fixing seat along two guide rod via the adjustment bar when rotation, and
The detector is equipped with the combination arm of one with the described at least one mutually fixed combination of accurate slide unit.
It is preferred that foregoing mixing exception feeding-distribution device, the pedestal are equipped with several support legs, each support leg is
Cylinder made by one rubber material, so as to enabling the pedestal to be firmly set in a plane.
By above-mentioned technological means, mixing exception feeding-distribution device of the present invention when in use, not only can inhale one by one and blow
Mode, will test the locking part to be measured for non-defective unit through the blowing method of the air blowing group, by the leadout hole of the guide seat
It is detached from the feeding track and falls in the material collecting box and concentrate, and for adjacent and without institute during air blowing
Another locking part to be measured for stating guide seat provides the suction attracted via the air-breathing group, can effectively avoid described adjacent
Locking part to be measured, be detached from the feeding track because of the blowing gas of air blowing group, be collected in described gather materials so as to allowing
Locking part to be measured in box is all non-defective unit, and the situation of defective products is mixed without generating, and is detected as the to be measured of defective products
Locking part is to be detached from the feeding track by the outlet of the track groove, effectively avoids generating non-defective unit and defective products after detection
The situation mutually mixed can not only be accurately separated non-defective unit and defective products, and be not required to detect again again after sub-material, when opposite can save
Between and cost, and then provide one and accurate sub-material and the mixing exception feeding-distribution device of time and cost can be saved.
Detailed description of the invention
Fig. 1 is the stereo appearance figure of mixing exception feeding-distribution device of the present invention.
Fig. 2 is the sectional perspective outside drawing of mixing exception feeding-distribution device of the present invention.
Fig. 3 is another sectional perspective outside drawing of mixing exception feeding-distribution device of the present invention.
Fig. 4 is the sectional perspective exploded view of mixing exception feeding-distribution device of the present invention.
Fig. 5 is the operation side view diagrammatic cross-section of the partial enlargement of mixing exception feeding-distribution device of the present invention.
The corresponding relationship of appended drawing reference and component is as follows:
Shake mould group 10;Pedestal 11;Support leg 111;Shake oscillator 12;Shake disk 13;Notch 131;Groove 132;It send
Expect mould group 20;Feed appliance 21;Feeding track 22;Material collecting box 23;Rail bed 24;Track groove 241;Perforate 242S;Perforate 242B;
Cover board 25;Port 251;Guide seat 26;Leadout hole 261;L shaped plate 27;Strip hole 271;Locking part 272;Sub-material mould group 30;Air-breathing
Group 31;Vacuum generator 311;Air intake duct 312;Air blowing group 32;Valve seat 321;Gas blow pipe 322;Regulating valve 323;Detect mould group 40;
Ontology 41;Lower fixed seat 411;Guide rod 412;Upper fixed seat 413;The first adjustment group 42;Adjust bar 421;Sliding shoe 422;Adjustment
Wheel 423;Second adjustment group 43;Accurate slide unit 431;Detector 44;Combination arm 441;Placement platform 50;Locking part 60 to be measured;It is good
Product 60G;Defective products 60B.
Specific embodiment
The present invention is mainly to provide a kind of mixing exception feeding-distribution device, please refer to as shown in Figures 1 to 4, by can in figure
Find out mixing exception feeding-distribution device of the present invention, is equipped with a vibration mould group 10, a feeding mold group 20, a sub-material mould group 30 and an inspection
Survey mould group 40, in which:
The vibration mould group 10 is set in a placement platform 50 and is equipped with a pedestal 11, one vibration oscillator 12 and a concussion disk
13, the pedestal 11 is set in the placement platform 50 and is equipped with several support legs 111, it is preferable that each support leg 111 is one
Cylinder made by rubber material, so as to enabling the pedestal 11 to be firmly set in the placement platform 50, the vibration shake
It swings device 12 to be set on the pedestal 11, the vibration oscillator 12 can generate a concussion effect, shake and imitate due to the generation
The structure and principle of fruit are therefore not to be illustrated herein, the concussion known to those of ordinary skill in the art
Disk 13 is to be set to disk body on the vibration oscillator 12 and opening up for one, and the concussion disk 13 is shaken by the vibration
The vibration of device 12 and generate a concussion effect, the concussion disk 13 offers a notch 131, and the concussion disk at outer peripheral edge
A groove 132 communicated with the notch 131 is recessed at 13 top surface at the corresponding notch 131.
The feeding mold group 20 combines with the vibration mould group 10 and is equipped with a feed appliance 21, a feeding track 22 and one
Material collecting box 23, the feed appliance 21 are set on the pedestal 11 of the vibration mould group 10 and are located at the vibration oscillator 12 and described
Shake the side of disk 13, it is preferable that the high frequency that the feed appliance 21 can generate high frequency oscillation for one, which is put down, send device, the feeding rail
Road 22 is set on the feed appliance 21 and communicates with the concussion disk 13, please refer to as shown in Fig. 2 and 4, the feeding rail
Road 22 is equipped with a rail bed 24, a cover board 25 and a guide seat 26, wherein the rail bed 24 is set to the feed appliance 21
Top and one end combine with the concussion disk 13 and be located at the notch 131, the rail bed 24 is recessed with one
Track groove 241, the track groove 241 extend through the track bottom along the both ends of the length direction of the rail bed 24
Two lateral walls and a respectively entrance of seat 24 and an outlet, wherein the entrance of the track groove 241 and 132 phase of groove
It is logical, further, the rail bed 24 the exit of the neighbouring track groove 241 be equipped with two interval settings and with the track
Perforation 242S, 242B that slot 241 communicates.
The cover board 25 is top surface and the front side of the cover board 25 alongst for being covered on the rail bed 24
While extending to the top of the track groove 241, the front side edge of the cover board 25 is made to cover the part range of the track groove 241,
Further, the cover board 25 two places perforation 242S, 242B of the neighbouring rail bed 24 it is longitudinal through equipped with one with it is described
The port 251 that track groove 241 communicates;And the guide seat 26 is combined with the cover board 25 and two with the rail bed 24
Perforating, the position 242S, 242B is corresponding, and further, the guide seat 26 is set at the port 251 of the cover board 25 and is equipped with one
The leadout hole 261 communicated with the port 251, it is preferable that the leadout hole 261 be for one inclination be arranged upward it is oblique
Hole;The material collecting box 23 is to combine and be located at below the leadout hole 261 of the guide seat 26 with the pedestal 11, the collection
Magazine 23 is an opening up box body, it is preferable that the material collecting box 23 is by a L shaped plate 27 and 11 phase of pedestal
Fixed combination.
The sub-material mould group 30 combines with the vibration mould group 10 and feeding mold group 20 and is equipped with an air-breathing group 31 and one
Air blowing group 32, the air-breathing group 31 is equipped with a vacuum generator 311 and an air intake duct 312, wherein the vacuum generator 311 is
It being combined by a L shaped plate 33 with the pedestal 11, one end of the air intake duct 312 is connected with the vacuum generator 311,
An and wherein perforation for the other end of the air intake duct 312 and the rail bed 24 far from the track groove 241 outlet
242S is connected, and the air blowing group 32 is equipped with a valve seat 321, a gas blow pipe 322 and a regulating valve 323, and the valve seat 321 is
It is combined with the pedestal 11 positioned at the side of the vacuum generator 311 by a L shaped plate 27, the gas blow pipe 322
One end is connected with the valve seat 321, and the other end of the gas blow pipe 322 with close to the track groove 241 outlet it is described
A wherein perforation 242B for rail bed 24 is connected, and makes gas caused by the valve seat 321, can be via the gas blow pipe
322 blow out through the track groove 241 and the port 251 and towards the leadout hole 261 of the guide seat 26, further, the tune
It saves valve 323 to be set on the valve seat 321, the gas flow of the gas blow pipe 322 is entered so as to adjusting the valve seat 321;Into one
Step, aforementioned each L shaped plate 27 are provided with an at least strip hole 271 and the locking part 272 that combines with the strip hole 271, borrow
To adjust the relatively described pedestal 11 of the vacuum generator 311, the valve seat 321 and the material collecting box 23 and the feeding rail
The position in road 22.
The detection mould group 40 is set in the placement platform 50 and is located at the side of the vibration mould group 10 and towards described
Feeding mold group 20, and the detection mould group 50 is electrically connected with 30 phase of sub-material mould group and (such as mutually electrically connects through a circuit board
Connect), so as to allowing the sub-material mould group 30 that can carry out actuation according to the testing result of the detection mould group 40, wherein the detection mould
Group is equipped with an ontology 41, a first adjustment group 42, a second adjustment group 43 and a detector 44, and the ontology 41 is set to described
Side in placement platform 50 and positioned at the feeding track 22, it is preferable that the ontology 41 is equipped with a lower fixed seat 411, two
Guide rod 412 and a upper fixed seat 413, wherein two guide rod 412 and 413 phase of the lower fixed seat 411 and fixed seat
In conjunction with and formed one be in rectangle framework, the first adjustment group 42 combine with the ontology 41 and be equipped with one adjust bar 421,
One sliding shoe 422 and an adjustment wheel 423, the adjustment bar 421 be able to rotate with the lower fixed seat 411 and fixed seat
413 combine and between two guide rod 412, and the sliding shoe 422 is arranged with two guide rods, 412 phase in conjunction with and with institute
It states adjustment 421 phase card of bar and sets combination, and the adjustment wheel 423 stretches out one end of fixed seat 413 with the adjustment bar 421
It combines, enables to drive the sliding shoe 422 to lead along described two via the adjustment bar 421 when 423 rotation of adjustment wheel
Bar 412 and moved between two fixing seat 411,413.
The second adjustment group 43 is set on the sliding shoe 422 of the first adjustment group 42 and is equipped at least one accurate slide unit
431, the detector 44 combines with described at least one accurate slide unit 431 of the second adjustment group 43 and is located at the feeding
At the top of track 22, it is preferable that the detector 44 is equipped with one and the described at least one mutually fixed combination of accurate slide unit 431
Combination arm 441, and the detector 44 is a photosensitive coupling component camera lens (Charge-coupled Device camera;CCD
camera)。
Mixing exception feeding-distribution device of the present invention is in use, please refer to as shown in Fig. 1 and 2, when such as screw, bolt, spiral shell
The locking part 60 to be measured is placed in the concussion disk 13 by the locking part 60 to be measured such as cap or nail after the completion of manufacture,
Start the vibration oscillator 12 of the vibration mould group 10 and the feed appliance 21 of the feeding mold group 20, makes to be located at the concussion disk 13
In locking part 60 to be measured via concussion effect and be moved to one by one it is described concussion disk 13 groove 132 at, wherein described recessed
The width of slot 132 is related to the locking size of part 60 to be measured, such as the bar portion for making bolt etc. enters in the groove, and
Allow the head of bolt cannot be introduced into groove 132 and be located at the top surface of the rail bed 24, so as to allowing each locking part to be measured
60 can sequentially and with the same direction enter in the track groove 241 of the rail bed 24 through the entrance of the track groove 241, and
By the high frequency oscillation of feed appliance 21, allow each locking part 60 to be measured into the track groove 241 towards the track groove 241
Export direction it is mobile, therefore, when that need to detect for the locking part 60 to be measured of different sizes or pattern, need to change phase
Corresponding feeding track 22 carry out using.
As shown in Fig. 1,3 and 5, enter the track groove 241 and towards the track after concussion of each locking part 60 to be measured
When the outlet of slot 241 is mobile, the detector 44 above the feeding track 22 can hide to without the cover board 25
Each locking part 60 to be measured carries out the detection such as appearance, size, structure and profile, so as to confirming that each locking part 60 to be measured belongs to symbol
Standardization or defined non-defective unit 60G or incongruent defective products 60B, wherein when the locking part 60 to be measured for being confirmed as non-defective unit 60G
When being moved at the guide seat 26, the meeting actuation of vacuum generator 311 of the air-breathing group 31 of the feeding-distribution device 30, and via institute
It states air intake duct 312 and the perforation 242S aspirates the air in the track groove 241, make to be located on 26 position of guide seat
Non-defective unit 60G adjacent and suction not yet by the locking part 60 to be measured of the guide seat 26 by the air intake duct 312
Attract, at this point, the non-defective unit 60G being located on 26 position of guide seat then makees flowing mode by the valve seat of the air blowing group 32, through described
Gas blow pipe 322, perforation 242B and the port 251, and gas is blowed into the non-defective unit on 26 position of guide seat
60G makes non-defective unit 60G leadout hole 261 through the guide seat 26 after the blowing of the gas be detached from the feeding track
22, and fall in the material collecting box 23 and concentrated.
Further, when the locking part 60 to be measured for being detected as to be confirmed as defective products 60B is moved at the guide seat 26
When, the air blowing group 32 of the feeding-distribution device 30 will not actuation, make the defective products 60B towards the export direction of the track groove 241
It is mobile, it finally is detached from the feeding track 22 via the outlet of the track groove 241, and drop out to the placement platform 50 or ground
Face, or further a collection box is put in disposition below the outlet of the track groove 241, so as to will test as defective products 60B's
Locking part 60 to be measured is collected.
By above-mentioned technological means, mixing exception feeding-distribution device of the present invention when in use, not only can inhale one by one and blow
Mode, will test the locking part 60 to be measured for non-defective unit 60G through the blowing method of the air blowing group 32, by the guide seat 26
Leadout hole 261 be detached from the feeding track 22 and fall in the material collecting box 23 and concentrate, and it is right during air blowing
In another locking part 60 to be measured adjacent and without the guide seat 26, a suction attracted is provided via the air-breathing group 31
Power, can effectively avoid the adjacent locking part 60 to be measured, be detached from the feeding due to blowing gas because of the air blowing group 32
Track 22 mixes not so as to allowing the locking part 60 to be measured being collected in the material collecting box 23 to be all non-defective unit 60G without generating
The situation of non-defective unit 60B, and the locking part 60 to be measured for being detected as defective products 60B is detached from by the outlet of the track groove 241
The feeding track 22 effectively avoids generating the situation that non-defective unit 60G mixes with defective products 60B phase after detection, can not only be accurate
Ground separates non-defective unit 60G and defective products 60B, and is not required to detect again again after sub-material, opposite can save time and cost, and then provide
One accurate sub-material and can save the mixing exception feeding-distribution device of time and cost.
The above is only presently preferred embodiments of the present invention, is not intended to limit the present invention in any form, Ren Hesuo
Belong in technical field and have usually intellectual, if utilizing institute of the present invention in the range of not departing from proposed technical solution of the invention
Disclose the equivalent embodiment that locally changes or modify made by technology contents, and without departing from technical solution of the present invention content,
All of which are still within the scope of the technical scheme of the invention.
Claims (10)
1. a kind of mixing exception feeding-distribution device, which is characterized in that it is provided with:
One vibration mould group, the vibration mould group are set to equipped with a pedestal, a vibration oscillator being set on the pedestal and one
On the vibration oscillator and opening up concussion disk;
One feeding mold group, the feeding mold group combine with the vibration mould group and are equipped with a feed appliance, a feeding track and one
Material collecting box, the feed appliance are set on the pedestal and are located at feeding described in the side of the vibration oscillator and the concussion disk
Track is set on the feed appliance and communicates with the concussion disk, and the material collecting box is to combine and be located at described with the pedestal
At the lower section of feeding track one end;
One sub-material mould group, the sub-material mould group are combined with the vibration mould group and feeding mold group and are blown equipped with an air-breathing group and one
Gas group, the air-breathing are mounted on the pedestal and are connected with the feeding track, are that can provide a suction to send to described
Expect in track, and the air blowing group is connected on the pedestal and with the feeding track, is that can provide a blowing force to institute
It states in feeding track;And
One detection mould group, the detection mould are mounted in placement platform and are located at the side of the vibration mould group and towards the feeding
Mould group, the detection mould group are mutually electrically connected with the sub-material mould group, so as to allowing the sub-material mould group according to the detection mould group
Testing result carry out actuation, the detection mould group is equipped with a detector towards the feeding track.
2. mixing exception feeding-distribution device as described in claim 1, which is characterized in that the concussion disk offers at outer peripheral edge
One notch, and the concussion disk is recessed with a groove communicated with the notch, institute at the top surface of the corresponding indentation, there
Feeding track is stated equipped with a rail bed, the rail bed is set to the top of the feed appliance and one end and the concussion disk
It combines and is located at the indentation, there, the rail bed is recessed with a track groove, and the track groove is along the rail bed
Length direction both ends, extend through two lateral walls of the rail bed and a respectively entrance and an outlet, wherein institute
The entrance for stating track groove is communicated with the groove.
3. mixing exception feeding-distribution device as claimed in claim 2, which is characterized in that the rail bed is in the neighbouring track
The exit of slot is equipped with the perforation that two intervals are arranged and communicate with the track groove, and the feeding track is further provided with a lid
Plate and a guide seat, the cover board are top surface and the front side edge of the cover board alongst for being covered on the rail bed
The top for extending to the track groove makes the front side edge of the cover board cover the part range of the track groove, and the cover board
Longitudinally run through the port communicated equipped with one with the track groove at two perforation of the neighbouring rail bed, and the guide seat
Set on the cover board passage port and be equipped with a leadout hole communicated with the port, and the material collecting box is located at the guide seat
Leadout hole below at.
4. mixing exception feeding-distribution device as claimed in claim 3, which is characterized in that the air-breathing group is equipped with a vacuum generator
And an air intake duct, the vacuum generator are combined with the pedestal, one end of the air intake duct and the vacuum generator phase
Connection, and the other end of the air intake duct is connected with a wherein perforation for the rail bed far from track groove outlet
It connects.
5. mixing exception feeding-distribution device as claimed in claim 4, which is characterized in that the air blowing group is blown equipped with a valve seat and one
Valve seat described in tracheae combines with the pedestal and is located at the side of the vacuum generator, one end of the gas blow pipe with it is described
Valve seat is connected, and a wherein perforation for the other end of the gas blow pipe and the rail bed close to track groove outlet
It is connected, makes gas caused by the valve seat, it can be via the gas blow pipe through the track groove and the port and towards described
The leadout hole of guide seat is blown out.
6. mixing exception feeding-distribution device as claimed in claim 5, which is characterized in that the air-breathing group is arranged on the valve seat
One regulating valve enters the gas flow of the gas blow pipe so as to adjusting the valve seat.
7. mixing exception feeding-distribution device as claimed in claim 6, which is characterized in that the material collecting box, the vacuum generator
And the valve seat, it is respectively by a L shaped plate and the mutually fixed combination of the pedestal, and to be provided at least one long for each L shaped plate
Hole and the locking part that is combined with an at least strip hole, so as to adjust the vacuum generator, the valve seat and
The position of the relatively described pedestal of the material collecting box and the feeding track.
8. the mixing exception feeding-distribution device as described in any one of claims 1 to 7, which is characterized in that the detection mould group is set
There are an ontology, a first adjustment group, a second adjustment group and a detector, the ontology to be set in the placement platform and be located at
The side of the feeding track, the first adjustment group combines with the ontology and is equipped with one can be relative to ontology movement
Sliding shoe, the second adjustment are mounted on the sliding shoe of the first adjustment group and are equipped at least one accurate slide unit, the inspection
Gauge head combines with the accurate slide unit of the second adjustment group and is located at the top of the feeding track.
9. mixing exception feeding-distribution device as claimed in claim 8, which is characterized in that the ontology is equipped with a lower fixed seat, two
Guide rod and a upper fixed seat, two guide rod combine with the lower fixed seat and fixed seat and form one in rectangle
Framework, the first adjustment group be equipped with one adjustment bar and one adjustment wheel, the adjustment bar be able to rotate with the lower fixed seat and
Fixed seat combines and between two guide rod, and the sliding shoe with two guide rod mutually be arranged in conjunction with and with
The adjustment bar, which mutually blocks, sets combination, and the adjustment wheel is combined with one end that the adjustment bar stretches out fixed seat, makes institute
When stating adjustment wheel rotation can via the adjustment bar drive sliding shoe along two guide rod and in two fixing seat it
Between move, and the detector is equipped with the combination arm of one at least one precision slide unit mutually fixed combination.
10. mixing exception feeding-distribution device as claimed in claim 9, which is characterized in that the pedestal is equipped with several support legs, respectively
Support leg is cylinder made by a rubber material, so as to enabling the pedestal to be firmly set in a plane.
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CN201710709763.7A CN109396057A (en) | 2017-08-18 | 2017-08-18 | Mixing exception feeding-distribution device |
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CN201710709763.7A CN109396057A (en) | 2017-08-18 | 2017-08-18 | Mixing exception feeding-distribution device |
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