CN205500208U - Orbital slim material of a vibration pay -off separator - Google Patents

Abstract

The utility model provides an orbital slim material of a vibration pay -off separator, it establishes the dog at pay -off track end, and the track bottom surface corresponds the material piece to leaning on the position in the dog to be equipped with first sensor and the first hole of inhaling respectively, establish the clamp plate in be greater than a material length part apart from the dog, the clamp plate can supply a material piece to pass through with the height of track bottom surface, and the position of the corresponding material piece of clamp plate below is equipped with the second sensor respectively and inhales the hole with the second, the upstream side of inhaling the hole in the second is in addition established and is blown the hole to one side, it is greater than a material length part and establishes the third and inhale the hole to inhale hole upstream side distance in the second again, and it inhales the hole highly be equipped with a side -blown hole a little more than a material thickness on the side wall to correspond the third. To expect from this that the district separates the separation location in order avoiding the material repeatedly to put, and blow the hole to one side and can expect with higher speed that the piece gos forward in order to improve feed speed.

Description

The slim material part separating device of vibration feeding track

Technical field

This utility model relates to the feeding track structure of a kind of vibration feeder, espespecially a kind of for being divided by sheet type materials and parts From and promote the slim material part separating device of feeding speed and efficiency.

Background technology

General vibration feeder is typically to arrange a vibration module on base, and vibration module sets up group of feeding again Module, is driven feeding module to make of reciprocating vibration by this vibration module, and thus conveying materials and parts advance along default track.And meeting The feeding track of feeding module arranges various screening structure, thus screens, eliminate spread pattern and be not inconsistent intended materials and parts, After be connected an output device at the least significant end of feeding track, in order to will use through the materials and parts output of screening, arrangement.

When the size of materials and parts, shape have obvious difference, it is easy to reach screening by screening plant, eliminate arrangement shape Formula is not inconsistent the effectiveness of expection materials and parts, but when the size of materials and parts is the least, shape difference more lacks, be screened efficiently by materials and parts Eliminate and the most relatively become difficulty.

Refer to Fig. 1, its for one be used for carrying thin rounded flakes materials and parts (such as: mobile lens brake sack .... etc.) feeding The end structure of track.This most inclined shape of feeding track 8, and limit material catch 81, this limit material catch are set in relatively low side The thickness of the height of 81 materials and parts by slightly below being carried, in order to make overlapped materials and parts on the inclined tracks because not limiting material The support of catch and landing, and the end of feeding track 8 is provided with a block 82, this block 82 is for being used for stopping that location is carried To the materials and parts 91 of least significant end, and first sensor 83 and one first sucker is set in the position of corresponding least significant end materials and parts 91 84, this first sensor is the downstream leading edge locus corresponding to these materials and parts 91, and the position of second materials and parts 92 of respective ends sets Put one second sucker 85.

Therefore, can be blocked by block 82 when materials and parts 91 are sent to feeding track 8 least significant end, simultaneously first sensor 83 meeting Sense materials and parts 91 and synchronous averaging the first sucker 84 and the second sucker 85 are to hold these materials and parts 91, materials and parts 92 respectively, thus may be used Materials and parts 91 are located for the vacuum slot of output device to take materials and parts 91.

Owing to the development trend of such materials and parts is to develop towards slimming, have the thickness materials and parts less than 0.1mm at present and occur, Because materials and parts are the most thin and very gently, so still can be because of pushing or because of the vibration of feeding track between material and material (upper and lower) and in track end produce upstream materials toward at downstream material repeatedly or lower slotting situation；And the main life of this material Product mode is via punching press (Punch) process manufacture, therefore the flatness of material there is no method and improves control so that track end repeatedly material Situation probability increases.

It addition, because the materials and parts on feeding track 8 are continuously every arranged adjacent, therefore in the vacuum slot feeding of output device During, vacuum slot still has an opportunity to adsorb the material in adjacent materials or overlapped landing, causes feeding abnormal.

And the first sucker 84 being arranged at end is easily caused materials and parts 91 and tilts because front end absorption, allow adjacent materials and parts 92 Increase below insertion and repeatedly expect probability.Also on feeding track, easily produce crossover situation because of materials and parts, therefore the feed of vibration module is fast Degree must reduce to reduce storeroom pushing power, and then limits feeding speed and efficiency.

Utility model content

Main purpose of the present utility model is to solve above-mentioned problem and provide the slim material of a kind of vibration feeding track Part segregation apparatus, is located separately and coordinates air-flow to accelerate to blow by being separated by materials and parts, and then reach to avoid because materials and parts are overlapped Feeding is abnormal and can promote the purpose of feeding speed.

For reaching object defined above, the slim material part separating device of vibration feeding track of the present utility model, it has and send Material track, the end of this feeding track is provided with a block, and the materials and parts that the bottom surface correspondence of this feeding track is carried are resisted against this gear The position of block is respectively equipped with a first sensor and one first sucker, is provided with one in place of distance block is more than a materials and parts length Pressing plate, the height spacing of this pressing plate and the bottom surface of feeding track is available for materials and parts and passes through, and the feeding track below pressing plate The position of bottom surface correspondence materials and parts is respectively equipped with one second sensor and one second sucker, and separately the upstream side in this second sucker is provided with One oblique aperture blowing, oblique aperture blowing is to passing the bottom surface of feeding track from upstream side toward downstream skew back, in this second sucker upstream side away from From more than being provided with one the 3rd sucker in place of a materials and parts length, and corresponding 3rd sucker is on the side wall of feeding track slightly above one The height of individual materials and parts thickness is provided with side aperture blowing.

As preferably, this pressing plate bottom surface to the position of the second sucker being provided with an air slot, this air slot in by this The form that two sucker upper straight extend and passed by the upstream side of this pressing plate.

As preferably, this first sensor and this first sucker lay respectively at the position, both sides of the axis of carried materials and parts Put.

As preferably, the axle that this second sucker is positioned at carried materials and parts is online.

As preferably, the height spacing of this pressing plate and the bottom surface of this feeding track be more than a materials and parts thickness 0.1～ 0.2mm。

Separate owing to three materials and parts can be separated respectively by the first sucker of the present utility model, the second sucker with the 3rd sucker Absorption location, and coordinate the side-blown hole of corresponding 3rd sucker, it is thus ensured that the position that materials and parts are drawn at feeding track end Do not have the overlapped problem of materials and parts to occur；Accelerate to blow to feeding district it addition, oblique aperture blowing can blow out acceleration air-flow by materials and parts, and Pressing plate can be suppressed materials and parts and avoid materials and parts to fly away from track, therefore can effectively promote feeding speed.

Accompanying drawing explanation

Fig. 1 is the end structure outside drawing of the feeding track of existing design.

Fig. 2 is the top view of main structure of the present utility model.

Fig. 3 is sectional structure schematic diagram of the present utility model.

Description of reference numerals:

1 feeding track

101 limit material catch

102 barricades

11 blocks

12 pressing plates

121 air slots

122 drainage troughs

13 first sensors

14 first suckers

15 second sensors

16 second suckers

17 oblique aperture blowing

18 the 3rd suckers

19 side-blown holes

2 feeding districts

3 working areas

4 positioning areas

51,52,53 materials and parts

8 feeding tracks

81 limit material catch

82 blocks

83 first sensors

84 first suckers

85 second suckers

91,92 materials and parts

Detailed description of the invention

Legend is coordinated to describe in detail as follows by this utility model preferred embodiment.Referring to Fig. 2 to Fig. 3, Fig. 2 is this reality With novel top view；Fig. 3 is sectional structure schematic diagram of the present utility model.

The inner side of feeding track 1 of the present utility model is provided with limit material catch 101, is provided with barricade 102 outside feeding track 1, And the end of feeding track 1 is provided with a block 11, and it is provided with a pressing plate in place of apart from this block 11 more than a materials and parts length 12, make to be formed between this pressing plate 12 and this block 11 a feeding district 2, the height spacing of the bottom surface of this pressing plate 12 and this feeding track Pass through for being available for materials and parts, make to be formed below this pressing plate 12 and between the bottom surface of this feeding track a working area 3.In the present embodiment In, this pressing plate 12 is more than a materials and parts thickness about 0.1～0.2mm with the height spacing of the bottom surface of this feeding track.

This feeding district 2 is respectively equipped with one first biography in the position that the bottom surface correspondence materials and parts 51 of feeding track are resisted against block 11 Sensor 13 and one first sucker 14, be positioned into the materials and parts 51 in feeding district 2 in order to detect and to adsorb.In the present embodiment, this is years old One sensor 13 lays respectively at the two of the axis (i.e. the centrage of feeding track) of carried materials and parts 51 with this first sucker 14 Side position.

This working area 3 is respectively equipped with one second sensor 15 and one in the position of the bottom surface correspondence materials and parts 52 of feeding track Two suckers 16, are positioned into the materials and parts 52 in working area 3 in order to detect and to adsorb, and this second sucker 16 are by being positioned at carried material The axle of part is online, and separately the upstream extremity in this working area 3 is provided with an oblique aperture blowing 17, and this oblique aperture blowing 17 is oblique toward downstream from upstream extremity Pass the bottom surface of this feeding track, in order to accelerate forwards to blow by the materials and parts being stranded in working area 3 52.

This pressing plate 12 bottom surface to the position of the second sucker 16 being provided with an air slot 121, this air slot 121 in by this Two sucker 16 upper straight extend and are passed by the upstream side of this pressing plate 12, by producing the suction of negative pressure in this second sucker 16 Rear formation one guides air-flow and accelerates to attract forward by the materials and parts of rear upstream side.This pressing plate 12 bottom surface is to should the position of oblique aperture blowing 17 Having installed a drainage trough 122, this drainage trough 122 extends from this oblique aperture blowing 17 upper straight and is worn by the downstream of this pressing plate 12 Go out, and guide air-flow forward when this oblique aperture blowing 17 is blown, to accelerate to promote these materials and parts to advance.

In this working area 3 upstream find range in place of more than a materials and parts length, be provided with a positioning area 4, this positioning area 4 in The bottom surface of feeding track is provided with one the 3rd sucker 18 in order to hold the 3rd materials and parts 53 corresponding to the position of materials and parts 53, and in feeding On the side wall of track, the height of a slightly above materials and parts thickness is provided with side aperture blowing 19, this side-blown hole 19 in order to blow off overlapped Other materials and parts above 3rd materials and parts 53.

Feeding track 1 of the present utility model is in end (downstream) position of vibration feeder, and materials and parts are first when conveying Finally it is sent in feeding track 1 through permutation, screening.Owing to feeding track 1 of the present utility model divides into feeding district 2, temporarily Deposit district 3 and positioning area 4, and be respectively equipped with the first sucker the 14, second sucker 16 and the 3rd sucker 18, be therefore transported to feeding rail Three materials and parts 51,52,53 of road 1 end are in the state separating separation, i.e. state as depicted in Fig. 2.

After first materials and parts 51 is removed, the second sucker 16 and the 3rd sucker 18 can be inhaled under stopping and being made materials and parts 52,53 same Time given forward, now the oblique aperture blowing 17 in working area 3 can be blown, and owing to this pressing plate 12 is positioned at the top in working area 3, makes working area 3 form a hemi-closure space, therefore can produce, by the design that drainage trough 122 coordinates with oblique aperture blowing 17, the air-flow pushed away forward, In order to accelerate to push materials and parts 52 forward simultaneously materials and parts 53 with rear space out, and owing to this working area 3 is provided with pressing plate 12, when Tiltedly aperture blowing 17 blows materials and parts 52 when advancing, and materials and parts 52 will not fly away from track under the restriction of pressing plate 12, only can be carried post To feeding district 1, to promote feeding speed.

Can be detected by first sensor 13 after materials and parts 52 are pushed to position, feeding district 2, and start the first sucker 14 with Second sucker 16, the design coordinated with the second sucker 16 by air slot 121 can be produced attraction air-flow and accelerate materials and parts advance, and quilt Second sucker 16 absorption location.And when the materials and parts at rear enter positioning area 4, if there being the existing picture repeatedly expected to occur, this side-blown hole Overlapped materials and parts up can be blown off by 19, and the 3rd materials and parts 53 absorption can be positioned at positioning area 4 by the 3rd sucker 18, makes On feeding track 1, three materials and parts 51,52,53 of least significant end present the state separating separation as shown in Figure 2 once again.Therefore, This utility model is not required to as prior art go to turn down the feeding speed of vibration module, i.e. can reach and avoids materials and parts because pushing repeatedly Expect and produce the problem that feeding is abnormal.

This utility model passes through aforesaid structure so that three materials and parts of least significant end can actually reach the shape separating separation State, and materials and parts can be avoided to produce, because pushing repeatedly material, the problem that feeding is abnormal.Further, since the oblique aperture blowing in working area can will be expected Part accelerates to be sent to feeding district, therefore can effectively be promoted by feeding speed.

Claims (5)

1. the slim material part separating device of a vibration feeding track, it is characterised in that there is a feeding track, this feeding track End be provided with a block, the materials and parts that the bottom surface of this feeding track correspondence is carried are resisted against the position of this block and are respectively equipped with one First sensor and one first sucker, in apart from this block more than being provided with a pressing plate in place of a materials and parts length, this pressing plate with should The height spacing of the bottom surface of feeding track is available for materials and parts and passes through, and the bottom surface correspondence materials and parts of the feeding track below this pressing plate Position be respectively equipped with one second sensor and one second sucker, separately the upstream side in this second sucker is provided with an oblique aperture blowing, should Tiltedly aperture blowing is to passing the bottom surface of this feeding track from upstream side toward downstream skew back, in this second sucker upstream side distance more than one One the 3rd sucker it is provided with in place of individual materials and parts length, and to the 3rd sucker being slightly above a material on the side wall of this feeding track The height of part thickness is provided with side aperture blowing.

The slim material part separating device of vibration feeding track the most according to claim 1, it is characterised in that this pressing plate bottom surface To the position of the second sucker being provided with an air slot, this air slot in extended by this second sucker upper straight and by this pressing plate The form that passes of upstream side.

The slim material part separating device of vibration feeding track the most according to claim 1, it is characterised in that this first sensing Device and this first sucker lay respectively at two side positions of the axis of carried materials and parts.

The slim material part separating device of vibration feeding track the most according to claim 1, it is characterised in that this second sucker It is positioned on the axis of carried materials and parts.

The slim material part separating device of vibration feeding track the most according to claim 1, it is characterised in that this pressing plate with should The height spacing of the bottom surface of feeding track is more than a materials and parts thickness 0.1～0.2mm.