CN105645081B - Staged feeder - Google Patents

Abstract

The invention relates to the technical field of feeding, and relates to a feeding machine, which includes a feeding machine body, a feeding belt, a boss, a feeding belt power mechanism, a telescopic mechanism and a material pushing device. The bottom of the machine body is divided into an inclined part and a horizontal part. The boss is installed at the bottom of the feeder body. The pushing device includes a fifth boss, which is located at the inclined part. The platform is linked so that the material on the boss can rise from the bottom of the feeder body to the same height as the feeding belt. The power mechanism of the feeding belt is also installed on the feeding machine body and is linked with the feeding belt. This design feeds the material into the feeding machine body , The material is fed into the feeding belt through the lifting of the boss, and the material is sent out through the conveying of the feeding belt. This design can not only greatly improve the feeding efficiency, but also maintain a nearly silent state, which greatly reduces the noise problem.

Description

Staged feeder

Technical field

The present invention relates to feeding technical fields, are related to a kind of feeder, especially a kind of staged feeder.

Background technique

What current village material, feeding and sieve for components expected to use is all vibration feeder, and vibration feeder is a kind of Unordered workpiece can be carried out automatic order by vibration and orient proper alignment by the feeder equipment of automatic orientation sequence, accurately defeated It is sent to next procedure.

A kind of structure chip component as disclosed in Chinese patent CN104627619A of the vibration feeder of the prior art Feed device is shaken, as shown in Figure 1, it includes comprising base station, shakes feed device and out material strip, the vibration feed device packet Containing cylindric shell, the shell is fixed on the base station by multiple bolts, and the upper end of the shell is equipped with spiral Track, the spiral track is interior to be equipped with the first slit passed through for chip component, is equipped with vibration motor, institute in the shell The end for stating spiral track is equipped with out material strip, and the material strip out is fixed on the base station by a mounting rack, described Material strip includes second slit passed through for chip component out.

Through the above structure it can be seen that the current prior art is all made of vibration feeding style for element feeding, and it is right The improvement of vibration feeder is also still established using vibration as feeding dynamic foundation；The improvement made is only in feeding efficiency etc. In problem.And shake feeder generally there are four major problem, and first: noise problem, second: feeding efficiency problem, third: feed Problem, the 4th: feeding capability problems.

First: noise problem, since material gradually is entered by vibration feeder completely by the way of vibration from base station Material strip is simultaneously gradually mobile to discharge port, therefore component constantly can shake and make a noise in movable type, and different first devices Part weight and volume is also different, also different from the noise level that issues when vibration feeder collision, at the same in base station material it is more Less and the frequency of vibration also will affect the size of noise, and this problem can not be eliminated always.

Second: feeding efficiency problem, according to feeding type and weight, staff must be adjusted in advance in vibration feeder The shockproofness of the operating voltage regulation vibration feeder of electromagnet, reaches the practical shockproofness for shaking feeder and sets in advance The shockproofness set, to make to shake workpiece smooth delivery of power in feeder to next procedure.

China Patent Publication No. 202156761U, publication date on March 7th, 2012, the entitled plastic cap feeding vibration of invention Disk, this application discloses a kind of feeding vibration disc for plastic cap as shown in Figure 2, it includes mounting seat, tilts peace in mounting seat The spring leaf of dress is provided with vibrating disc, and vibration pan bottom is provided with armature, jolting plate is fixed in mounting seat, is set on jolting plate It is equipped with the electromagnet close with armature, vibrating disc is that chassis is the horn-like of plane.Staff can pass through regulating magnet The shockproofness of operating voltage regulation vibration feeder.Its shortcoming is, when the piece count in vibration feeder becomes When change, vibration feeder can make practical shockproofness deviate pre-set shockproofness because of the variation of load, and work people Member need to manually adjust the operating voltage of electromagnet, so that the practical shockproofness for shaking feeder is reached pre-set vibration strong Degree；This is that vibration feeder is difficult to overcome the problems, such as always,

Third: feeding question generallys use automatic charging or manual feeding for the feed of vibration feeder at present, that is, works as Material in base station can supplement the material in base station by way of automatic control when less, but such vibration Often price also can be higher for feeder, there are also a kind of vibration feeder of unit price is not inexpensively had using manual feeding Automatic control device shakes the material residue in feeder by manual identified, passes through human intervention when material is less for object Material is added in vibration feeder.

4th: feeding capability problems, staff can shake the operating voltage of electromagnet in feeder by adjusting in advance Adjust vibration feeder shockproofness, when shake feeder in workpiece type change when, vibration feeder can because The variation of load and so that practical shockproofness is deviateed pre-set shockproofness, if but work electricity cannot be adjusted in advance in time Pressure, then when material is overweight may practical shockproofness can be smaller, will appear shockproofness at this time can not be by material from feeder The problem of interior submitting.

In view of the foregoing it is apparent that the vibration feeder of currently available technology there are loading efficiencies unstable, human intervention The larger problem of noise simultaneously.

Summary of the invention

For the problems of the prior art, the present invention provides a kind of whole without human intervention and certifiable feeding effect Rate, upper doses and the big staged feeder of noiseless and upper doses.

To realize the above technical purpose, the technical scheme is that a kind of staged feeder, including feeder ontology (1), feeding belt (2), boss (3), feeding belt power mechanism (4) and telescoping mechanism (5), feeding belt (2) installation On the side wall in feeder ontology (1), the boss (3) is mounted on feeder ontology (1) bottom, the telescoping mechanism (5) It is also mounted at feeder ontology (1) bottom and links with boss (3) so that the material on boss (3) can be from feeder ontology (1) bottom rises to the identical height of feeding belt (2), and the feeding belt power mechanism (4) is also mounted on feeder ontology (1) And link with feeding belt (2),

The telescoping mechanism (5) includes the first telescoping mechanism (5.1) and the second telescoping mechanism (5.2), boss (3) packet Include first boss (3.1), second boss (3.2), third boss (3.3) and the 4th boss (3.4), the first boss (3.1), Adjacent to each other, first telescoping mechanism (5.1) is respectively for second boss (3.2), third boss (3.3) and the 4th boss (3.4) Link with first boss (3.1) and third boss (3.3), second telescoping mechanism (5.2) respectively with second boss (3.2) and The linkage of 4th boss (3.4),

It further include material-pulling device (7), the material-pulling device (7) includes the 5th boss (7.1), the 5th boss (7.1) be mounted on feeder ontology (1) bottom and with the one in the first telescoping mechanism (5.1) or the second telescoping mechanism (5.2) Linkage,

The material-pulling device (7) includes that also the 6th boss (7.2), the 6th boss (7.2) in the form of sheets and is also mounted at Feeder ontology (1) bottom and in the first telescoping mechanism (5.1) or the second telescoping mechanism (5.2) one link.

Preferably, the bottom of the feeder ontology (1) is divided into rake (1.1) and horizontal part (1.2), the level Portion (1.2) is highly lower than rake (1.1), and the boss (3) is located at horizontal part (1.2).

Preferably, the 5th boss (7.1) is located at the rake (1.1) of feeder ontology (1), the 6th boss (7.2) positioned at the rake (1.1) or horizontal part (1.2) or rake (1.1) and horizontal part (1.2) of feeder ontology (1).

Preferably, further including sieve material component (6), sieve material component (6) includes that the first sieve expects component (6.1) and second Sieve material component (6.2), first sieve material component (6.1) and the second sieve material component (6.2) are separately mounted to feeder ontology (1) Above and it is located above feeding belt (2).

Preferably, it is described first sieve material component (6.1) and second sieve expect component (6.2) with feeder ontology (1) it Between be it is removable connection and first sieve material component (6.1) and second sieve expect component (6.2) respectively between feeding belt (2) between Away from adjustable.

Preferably, first boss (3.1), second boss (3.2), third boss (3.3) and the 4th boss (3.4) top Portion is in ramped shaped.

Preferably, the top profile of the 6th boss (7.2) is tapered or arch.

From the above, it can be seen that the present invention has following advantages: this staged feeder is completely instead of original The mode of feeding is shaken, but by the way that material to be sent into feeder ontology, the material on boss is sent by the lifting of boss Enter onto feeding belt, sent out material by the transport of feeding belt, while adding sieve material component to be directed to different objects Material carries out the spacing between the improvement or control elastomeric element and belt of adaptability to the correct status of material screening, in this way Design can not only greatly improve feeding efficiency, but also almost mute state can be kept, noise greatly reduces The problem of, simultaneously because the feeding style is linked using telescoping mechanism and boss, power is provided by telescoping mechanism and is stretched Influence of material weight for transport efficiency itself greatly reduces in movement, such structure.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the vibration feed device of the chip component of the prior art.

Fig. 2 is the structural schematic diagram of the feeding vibration disc for plastic cap of the prior art.

Fig. 3 is the structural schematic diagram of staged feeder of the invention.

Fig. 4 is the structural schematic diagram of staged feeder of the invention.

Fig. 5 is the structural schematic diagram of staged feeder of the invention.

Fig. 6 is the side view of staged feeder of the invention.

Fig. 7 is the bottom view of staged feeder of the invention.

Detailed description of the invention: 1, feeder ontology, 1.1, rake, 1.2, horizontal part, 2, feeding belt, 3, boss, 3.1, One boss, 3.2, second boss, 3.3, third boss, the 3.4, the 4th boss, 4, feeding belt power mechanism, 5, telescoping mechanism, 5.1, the first telescoping mechanism, the 5.2, second telescoping mechanism, 6, sieve material component, the 6.1, first sieve material component, the 6.2, second sieve material portion Part, 7, material-pulling device, the 7.1, the 5th boss, the 7.2, the 6th boss,

Specific embodiment

With reference to the accompanying drawings described in 3 to 7, a kind of staged feeder, including feeder ontology 1, feeding belt 2, boss 3, give Material belt power mechanism 4 and telescoping mechanism 5, the feeding belt 2 are mounted on the side wall in feeder ontology 1, the boss 3 It is mounted on 1 bottom of feeder ontology, the telescoping mechanism 5 is also mounted at 1 bottom of feeder ontology and links to make with boss 3 The material obtained on boss 3 can rise to the identical height of feeding belt 2, the feeding belt power mechanism 4 from 1 bottom of feeder ontology It is also mounted on feeder ontology 1 and links with feeding belt 2.

The telescoping mechanism 5 includes the first telescoping mechanism 5.1 and the second telescoping mechanism 5.2, and the boss 3 includes first convex Platform 3.1, second boss 3.2, third boss 3.3 and the 4th boss 3.4, the first boss 3.1, second boss 3.2, third are convex Platform 3.3 and the 4th boss 3.4 are adjacent to each other, first telescoping mechanism 5.1 respectively with first boss 3.1 and third boss 3.3 Linkage, second telescoping mechanism 5.2 link with second boss 3.2 and the 4th boss 3.4 respectively.

It further include material-pulling device 7, the material-pulling device 7 includes the 5th boss 7.1, and the 5th boss 7.1 is mounted on 1 bottom of feeder ontology and in the first telescoping mechanism 5.1 or the second telescoping mechanism 5.2 one link.

The material-pulling device 7 includes that also the 6th boss 7.2, the 6th boss 7.2 in the form of sheets and is also mounted at feeder 1 bottom of ontology and in the first telescoping mechanism 5.1 or the second telescoping mechanism 5.2 one link.

The bottom of the feeder ontology 1 is divided into rake 1.1 and horizontal part 1.2, and 1.2 height of horizontal part, which is lower than, inclines Inclined portion 1.1, the boss 3 are located at horizontal part 1.2.

5th boss 7.1 is located at the rake 1.1 of feeder ontology 1, and the 6th boss 7.2 is located at feeder sheet The rake 1.1 or horizontal part 1.2 or rake 1.1 and horizontal part 1.2 of body 1.

It further include sieve material component 6, the sieve material component 6 includes the first sieve material component 6.1 and the second sieve material component 6.2, institute It states the first sieve material component 6.1 and the second sieve material component 6.2 is separately mounted on feeder ontology 1 and is located at 3 top of feeding belt.

It is described first sieve material component 6.1 and second sieve material component 6.2 be between feeder ontology 1 it is removable connection and The spacing of first sieve material component 6.1 and the second sieve material component 6.2 respectively between feeding belt 2 is adjustable.

First boss 3.1, second boss 3.2, third boss 3.3 and the 4th boss 3.4 top be in ramped shaped.

The top profile of 6th boss 7.2 is tapered or arch.

When the operation of staged feeder as shown in Fig. 3,4 and 5, by the first telescoping mechanism 5.1 provide power make it is first convex Platform 3.1 is raised above since the horizontal part 1.2 of feeder ontology 1 from lowest point, is provided at this time by the second telescoping mechanism 5.2 dynamic The second boss 3.2 of power is begun to decline, when second boss 3.2 and first boss 3.1 are located at sustained height or first boss 3.1 Slightly above second boss 3.2 when, material can be fallen into second boss 3.2 from first boss 3.1, and second boss 3.2 is opened at this time Begin to carry out vertical motion, and fall the third boss 3.3 controlled by the first telescoping mechanism 5.1, when third boss 3.3 and the When two boss, 3.2 sustained height or second boss 3.2 are slightly above third boss 3.3, material can fall into 3.3 from second boss 3.2 In, and so on so that material from first boss 3.1 constantly rise until rising on feeding belt 2.

The 5th boss 7.1 being located on rake 1.1 simultaneously is mentioned by the first telescoping mechanism 5.1 or the second telescoping mechanism 5.2 For power, constantly descending operation is carried out so that the material being located on rake 1.1 is constantly to movement at horizontal part 1.2, together When the 6th boss 7.2 also provide power by the first telescoping mechanism 5.1 or the second telescoping mechanism 5.2 and constantly carry out lifting action, make The material that is located on 2 edge of feeding belt of part can be further sent on 2 edge of feeding belt or be tapped and fallen Enter into feeder ontology 1.

There are the first sieve material component 6.1 and the second sieve material component 6.2 for screening materials carrying again, it can quilt for underproof material It stops outside, and then is tapped to drop into feeder ontology 1 by the 6th boss 7.2.

The invention is not limited in two for the quantity of telescoping mechanism, and the quantity of boss is also not limited to four, also It can be one telescoping mechanism of only one boss or multiple boss and multiple telescoping mechanisms；But originally by long-term practice discovery The design feeding efficiency of invention is higher and energy consumption is lower.

The operation of this staged feeder in cycles；First boss 3.1, second boss 3.2, third boss 3.3 simultaneously Top with the 4th boss 3.4 is in the efficiency that ramped shaped can greatly improve feeding, secondly the top profile of the 6th boss 7.2 Tapered or arch, shape that can be different according to real work Demand Design, different shapes have feeding efficiency very big It influences, if the top profile of the 6th boss 7.2 is in slope surface, there will be the materials on many belt pulleys can forced back towards belt pulley On, it can be further improved feeding efficiency in this way, if the top profile of the 6th boss 7.2 is domed, can further help belt Material on wheel drops into feeder ontology 1.

Such design is completely different from vibration-type feeding, completely can be according to actual needs by the number of the first telescoping mechanism The width of the size and belt of amount and boss is adjusted and designs, so that the transport efficiency of material is greatly improved, and this The design of sample will not generate excessive noise completely, greatly purify the environment of factory.

Mode of this staged feeder completely instead of original vibration feeding, but by the way that material is sent into feeder In ontology, the material on boss is sent on feeding belt by the lifting of boss, by the transport of feeding belt by material It sends out, while adding sieve material component can be for the improvement of different material progress adaptability or control elastomeric element and belt Between spacing to the correct status of material screening, such design can not only greatly improve feeding efficiency, Er Qieke The problem of to keep almost mute state, noise greatly reduces, simultaneously because the feeding style using telescoping mechanism with Boss linkage provides power by telescoping mechanism and carries out stretching motion, and material weight itself greatly reduces in such structure For transporting the influence of efficiency.

The present invention and its embodiments have been described above, description is not limiting, it is shown in the drawings also only It is one of embodiments of the present invention, actual structure is not limited to this.All in all if the ordinary skill people of this field Member is enlightened by it, without departing from the spirit of the invention, is not inventively designed similar to the technical solution Frame mode and embodiment, be within the scope of protection of the invention.

Claims (7)

1. a kind of staged feeder, including feeder ontology (1), feeding belt (2), boss (3), feeding belt power mechanism (4) it is mounted on the side wall in feeder ontology (1) with telescoping mechanism (5), the feeding belt (2), boss (3) installation In feeder ontology (1) bottom, the telescoping mechanism (5) be also mounted at feeder ontology (1) bottom and with boss (3) linkage from And make the material on boss (3) that the identical height of feeding belt (2), the feeding skin can be risen to from feeder ontology (1) bottom Force mechanisms (4) are driven to be also mounted on feeder ontology (1) and link with feeding belt (2),

The telescoping mechanism (5) includes the first telescoping mechanism (5.1) and the second telescoping mechanism (5.2), and the boss (3) includes the One boss (3.1), second boss (3.2), third boss (3.3) and the 4th boss (3.4), the first boss (3.1), second Adjacent to each other, first telescoping mechanism (5.1) is respectively with for boss (3.2), third boss (3.3) and the 4th boss (3.4) One boss (3.1) and third boss (3.3) linkage, second telescoping mechanism (5.2) respectively with second boss (3.2) and the 4th Boss (3.4) linkage,

It further include material-pulling device (7), the material-pulling device (7) includes the 5th boss (7.1), the 5th boss (7.1) peace It links mounted in feeder ontology (1) bottom and with the one in the first telescoping mechanism (5.1) or the second telescoping mechanism (5.2),

The material-pulling device (7) includes that also the 6th boss (7.2), the 6th boss (7.2) in the form of sheets and is also mounted at feeding Machine ontology (1) bottom and in the first telescoping mechanism (5.1) or the second telescoping mechanism (5.2) one link.

2. staged feeder according to claim 1, it is characterised in that: the bottom of the feeder ontology (1) is divided into Rake (1.1) and horizontal part (1.2), the horizontal part (1.2) are highly lower than rake (1.1), and the boss (3) is located at water Flat portion (1.2).

3. staged feeder according to claim 2, it is characterised in that: the 5th boss (7.1) is located at feeder The rake (1.1) of ontology (1), the 6th boss (7.2) are located at the rake (1.1) or horizontal part of feeder ontology (1) (1.2) or rake (1.1) and horizontal part (1.2).

4. staged feeder according to claim 1, it is characterised in that: further include sieve material component (6), the sieve material portion Part (6) includes that the first sieve material component (6.1) and the second sieve expect component (6.2), first sieve material component (6.1) and the second sieve material Component (6.2) is separately mounted on feeder ontology (1) and is located above feeding belt (2).

5. staged feeder according to claim 4, it is characterised in that: first sieve material component (6.1) and second Sieve material component (6.2) is removable connection and the first sieve material component (6.1) and the second sieve material portion between feeder ontology (1) Spacing of the part (6.2) respectively between feeding belt (2) is adjustable.

6. staged feeder according to claim 1, it is characterised in that: first boss (3.1), second boss (3.2), The top of third boss (3.3) and the 4th boss (3.4) is in ramped shaped.

7. staged feeder according to claim 1, it is characterised in that: the top profile of the 6th boss (7.2) Tapered or arch.