CN114701810A - Automatic assembling vibration disc of combined fastener - Google Patents

Abstract

The invention discloses an automatic assembling vibration disc of a combined fastener, wherein a lining output rail and a bolt rod output rail are arranged in a vibration disc main body, the lining output rail is connected with the assembling fastener output rail, the bolt rod output rail is provided with a discharging end positioned at the top of an output end of the bolt sleeve output rail, and a lining discharge part and an assembling fastener output part are arranged on the assembling fastener output rail. The invention can realize synchronous feeding, assembling and conveying of the combined fastening piece, simultaneously eliminate idle load pieces, meet the integrity and continuity of the output combined fastening piece, avoid the rejection of idle extrusion forming of the bushing and effectively control the manufacturing cost. The requirement of the same-tray screening supply of the bolt rod and the bushing is met, the screening sequence is reasonable and ingenious, the main structure of the vibration tray is more compact, and meanwhile, the assembly falling-back parts also participate in vibration supply circulation, so that the phenomenon of scattering of traditional assembly parts is avoided. The vibration disc is simple and ingenious in design and high-efficiency and smooth in operation, so that the combined fastener is more convenient and efficient to produce and process.

Description

Automatic assembling vibration disc of combined fastener

Technical Field

The invention relates to an automatic assembling vibration disc of a combined fastener, and belongs to the technical field of functional vibration discs.

Background

A vibrating disk (Vibrator Bowl) is an auxiliary feeding device of an automatic assembly or automatic processing machine, which is called a component feeding device for short. The working principle of the vibrating disk is that the frequency converter and the motor realize the automatic conveying function. The automatic assembling machine can arrange various products in order, and is matched with automatic assembling equipment to assemble various parts of the products into a complete product, or is matched with automatic processing machinery to finish processing workpieces.

The vibrating disk is widely applied to various industries such as electronics, hardware, plastic, clock industry, battery, food, connector, medical appliance, medicine, food, toy, stationery, daily necessities and the like, and is necessary equipment for solving the problem of material supply of industrial automation equipment. The vibrating disk can meet the directional sorting of products, can also be used for sorting, detecting, counting and packaging and the like, and is a modern high-tech product.

At present, a combined fastener exists, which comprises a bush and a bolt rod, wherein the bolt rod comprises a bolt head and a rod body, an assembly ring is concave on the rod body, the bush comprises a bush body and an outer edge ring platform arranged at one end of the bush body, when the bush and the bolt rod are assembled and produced, the bolt rod is required to penetrate through the bush, the outer edge ring platform is abutted against the bolt head, and the bush body is pressed to deform and is locked with the ring concave through extrusion equipment after the assembly is finished.

Traditional combination fastener need adopt two sets of vibration dishes to carry out the feed respectively of bush and peg in the processing production process, carries out the free fall equipment cooperation that peg and bush counterpoint at the feed end of extrusion equipment, because there is the requirement of counterpointing in the vibration material loading in-process of bush and peg, consequently the phenomenon of dropping of peg fall deflection often appears, the unloaded phenomenon of bush can appear simultaneously, leads to the part to scatter and no-load bush to scrap.

Disclosure of Invention

The invention aims to solve the defects of the prior art, and provides an automatic assembling vibration disc of a combined fastener, aiming at the problems of various defects of the traditional vibration disc conveying and assembling.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

an automatic assembly vibration disk of a combined fastener is used for automatic assembly output of a lining and a bolt rod and comprises a vibration disk main body, wherein a lining output track and a bolt rod output track which are used for classified output of the lining and the bolt rod are arranged in the vibration disk main body, the lining output track is connected with the assembly fastener output track,

the bolt rod output rail is provided with a discharging end located at the top of the output end of the bolt sleeve output rail, a bush discharging part used for discharging the unloaded bush and an assembling fastener output part extending out of the vibration disc main body are arranged on the assembling fastener output rail, and the bush discharging part is located in the vibration disc main body.

Preferably, the bushing separating part comprises two horizontal feeding rail sections arranged at intervals and two overturning horizontal discharging rail sections between the horizontal feeding rail sections, the overturning horizontal discharging rail sections are arranged optionally, an overturning inclined transition section is arranged between the horizontal feeding rail sections, a horizontal material distributing plate is arranged on the overturning horizontal discharging rail sections, and a material discharging window is arranged on the horizontal material distributing plate.

Preferably, a mixture supply spiral channel for supplying the lining and the bolt rod is arranged in the vibration disc main body, a lining screening mechanism and a bolt rod screening mechanism are sequentially arranged on the mixture supply spiral channel along a mixture supply direction, the lining screening mechanism is communicated with the lining output track, and the bolt rod screening mechanism is communicated with the bolt rod output track.

Preferably, the lining screening mechanism comprises a lining discharging guide groove located on the mixture supply spiral channel, and an exposed guide plate used for exposing a rod body of the bolt rod and a material poking guide rod used for guiding, separating and guiding the bolt rod to the mixture supply spiral channel are arranged at the feeding end of the lining discharging guide groove.

Preferably, the bolt rod screening mechanism comprises a guide vertical wall located on the mixture supply spiral channel, a rod body guide gap used for guiding the rod body is arranged between the guide vertical wall and the conveying bottom wall of the mixture supply spiral channel, and a falling open groove for allowing the lining to fall back is formed in the conveying bottom wall opposite to the rod body guide gap.

Preferably, be equipped with spiral feeding cabin in the vibration dish main part and be located annular collecting chamber of spiral feeding cabin periphery, annular collecting chamber with spiral feeding cabin is linked together, bush output track, cock pole output track, equipment fastener output track and bush are arranged partly respectively in the annular collecting chamber.

The invention has the following beneficial effects:

1. the synchronous feeding, assembling and conveying of the combined fasteners can be realized, the idle load part is eliminated, the completeness and the continuity of the output combined fasteners are met, the condition that the bushing is scrapped due to idle extrusion forming is avoided, and the manufacturing cost is effectively controlled.

2. The requirement of the same-tray screening supply of the bolt rod and the bushing is met, the screening sequence is reasonable and ingenious, the main structure of the vibration tray is more compact, and meanwhile, the assembly falling-back parts also participate in vibration supply circulation, so that the phenomenon of scattering of traditional assembly parts is avoided.

3. The vibration disc is simple and ingenious in design and high-efficiency and smooth in operation, so that the combined fastener is more convenient and efficient to produce and process.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of the automatic assembly output of the bushing and pin in the automatic assembly vibratory pan of a combination fastener of the present invention.

FIG. 2 is a schematic view of the assembled structure of the bushing and the pin of the automatic assembly vibration plate of the combined fastener of the invention.

Fig. 3 is a schematic drawing of the alignment of the bushing output rail and the pin output rail of the present invention.

FIG. 4 is a schematic structural view of an automatic assembly vibratory pan of a composite fastener of the present invention.

FIG. 5 is another perspective view of the self-assembling vibratory pan of a composite fastener of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The present invention provides an automatic assembly vibration disk of a combination fastener, as shown in fig. 1 to 5, for an automatic assembly output of a bush 100 and a pin 200, including a vibration disk main body 1.

Specifically speaking, the vibration disk belongs to the prior art, and has a spiral feeding track, a pulse vibration source is arranged below a hopper, and the vibration disk vibrates in the vertical direction of the hopper and has torsional vibration in the inclined state of a spring piece so that internal materials are conveyed along the spiral feeding track.

In the present embodiment, a bushing output rail 2 and a pin output rail 3 for separately outputting the bushing 100 and the pin 200 are provided in the vibration plate body 1.

Specifically, classified output of the bushings 100 and the bolt rods 200 exists in the scheme, namely, the bushings 100 and the bolt rods 200 are respectively fed by arranging the anti-mixing structure on the spiral feeding track, and respectively output materials by the bushing output track 2 and the bolt rod output track 3.

After the bushing 100 and the bolt rod 200 are output, the automatic assembly between the bushing and the bolt rod and the discharge of the idle bushing 100 can be realized, and the completeness and the continuous supply of the rear-end output combined fastener are ensured.

Specifically, the bush output rail 2 is connected with an assembly fastener output rail 4, the pin output rail 3 has a discharge end 30 located at the top of the output end of the pin bush output rail, the assembly fastener output rail 4 is provided with a bush discharge portion 5 for discharging the unloaded bush 100, and an assembly fastener output portion 6 extending out of the vibration plate main body, and the bush discharge portion 5 is located in the vibration plate main body 1.

The specific implementation process and principle description are as follows:

the classified output of the bush 100 and the pin 200 is first realized by using the vibration plate body 1, and the bush 100 and the pin 200 are assembled at the discharge end 30 after being output along the bush output rail 2 and the pin output rail 3.

Referring to fig. 1 and 2, after the pin outputted along the pin output rail 3 is separated from the rail, in a free-fall state, the rod body passes through the bushing 100 and is integrally assembled with the bushing, and when the pin is different from the alignment position, the pin falls back into the vibration plate body 1, so that the pin is not detained.

It should be noted that the discharge end 30 of the pin has a stop, and when the pin is disengaged from the discharge end 30, it has a disengagement inertia, and when it hits the stop, it has an axial vertical falling state, so as to satisfy the assembly requirement that the pin vertically passes through the bushing.

When the bolt is assembled with the bushing 100, the outfeed feed is performed along the assembly fastener outfeed track 4. When the bolt rod is assembled and is in alignment and missing, the bushing 100 is separated at the bushing separating part 5, so that the output product of the output part 6 of the assembled fastener is an assembled finished product, and the condition that the bushing 100 is scrapped in no-load extrusion processing is avoided.

It should be noted that the pin and the bush both fall back in the vibration plate main body 1, so that the workpiece scattering in the conventional assembly is avoided, and the fallen workpiece still participates in the circular feeding supply.

In one embodiment, as shown in fig. 1, the bushing separating portion 5 includes two horizontal feeding rail sections 51 arranged at intervals, and an inverted horizontal discharging rail section 52 located between the two horizontal feeding rail sections, an inverted inclined transition section is arranged between the inverted horizontal discharging rail section and any horizontal feeding rail section, a horizontal distributing plate 521 is arranged on the inverted horizontal discharging rail section, and a discharging window 522 is arranged on the horizontal distributing plate.

Fig. 1 is a schematic view of the liner exit 5, not showing the reverse slope transition.

Specifically, the horizontal feeding rail section 51 is composed of two guide rods arranged in parallel, the outer edge ring platform of the bushing is carried on the two guide rods, the two guide rods of the turnover horizontal discharging rail section 52 are in a vertical separation state, and the turnover inclined transition section is the transition connection of the two rail sections 52, so that the axial vertical to axial horizontal guiding and axial horizontal to axial vertical guiding transition of the combined fastener are met.

In the axial horizontal state of the assembly fastener, there is an assembly fastener of a rod body which is supported on the horizontal material distributing plate 521, and due to its certain axial dimension, it is passed over the discharging window 522 to be smoothly conveyed to the assembly fastener output portion 6, and when the empty bush 100 is present, it is not supported by the rod body, so that the bush 100 is directly dropped by the discharging window 522 when being discharged to the discharging window 522, thus realizing the screening.

In a specific embodiment, a mixture supply spiral channel 10 for supplying the liner and the pin is arranged in the vibration plate body 1, and a liner screening mechanism 7 and a pin screening mechanism 8 are sequentially arranged on the mixture supply spiral channel along the mixture supply direction, the liner screening mechanism is communicated with a liner output track, and the pin screening mechanism is communicated with the pin output track.

Specifically, the bushing and the bolt rod have axial dimension difference, so the bushing screening mechanism 7 and the bolt rod screening mechanism 8 are designed according to the characteristics.

When the mix of bushings and pins passes through the bushing screening mechanism 7, the pins in the mix are expelled only the bushings into the bushing output track, and when the mix passes through the pin screening mechanism 8, the bushings in the mix are expelled only the pins into the pin output track.

It should be noted that, generally, screening can be realized according to the respective forms of the mixed materials, which belongs to the prior art, and the difference in the scheme lies in the sequence of the bushing screening mechanism 7 and the bolt rod screening mechanism 8.

In general, when screening small workpieces, the hollow-out falling design is adopted, so that when the bolt rod is screened firstly, the lining is difficult to supply to the spiral channel 10 along the mixture to continuously rise, and the classification and distribution design that the output end of the bolt rod is higher than the output end of the lining is not facilitated at the moment. Consequently, carry out the stock row earlier and leave, the stock row can not directly fall back to vibration dish bilge from the back, and it can continue to supply spiral channel 10 along the mixture and rise to next branch material point, so satisfies branch material ejection of compact height difference demand for vibration dish overall structure is compacter, moves more high-efficient smooth.

In one embodiment, the liner sifting mechanism 7 includes a liner removal channel 70 on the mix feed screw channel, the feed end of which is provided with an exposed guide plate for the exposed shank of the pin, and a kick-off guide bar for guiding the pin to separate and divert it to the mix feed screw channel.

The complete display structure of the lining screening mechanism 7 is omitted in the attached drawings, the lining screening mechanism belongs to the screening design of long and short shafts, and specifically, when a mixture is fed along a mixture supply spiral channel, an exposed guide plate can perform limit guide on a large head end, so that one side of the large head end is limited, a rod body faces to the other side, an inclined angle plate can exist in the exposed guide plate, because a bolt rod is axially long, the rod body of the bolt rod can be exposed relative to a lining discharge guide groove 70 and cannot enter the lining discharge guide groove 70, when the bolt rod passes through the lining discharge guide groove 70, the large head end of the bolt rod is limited, the rod body can be guided and separated by a material stirring guide rod, the bolt rod can be discharged along a guide channel formed by the material stirring guide rod and the exposed guide plate, and then the bolt rod returns to the mixture supply spiral channel to further ascend and supply, and the requirement for reaching the bolt rod screening mechanism 8 is met.

In one embodiment, the pin sifting mechanism 8 includes a guide vertical wall on the mixture supply spiral channel, a rod guide slit 81 for guiding the rod is provided between the guide vertical wall and the conveying bottom wall of the mixture supply spiral channel, and a falling slot 82 for the liner to fall back is provided on the conveying bottom wall opposite to the rod guide slit 81.

Specifically, the bottom conveyor wall presents an inclined guide angle which forces the rods into the rod guide slots 81, and when the liner is in this position, it has no rods extending into the guide slots 81, so that during vibration the liner will fall back from the fall-back slot 82 to the bottom of the tank, thereby participating in the circulation feed.

In a specific embodiment, a spiral feeding cabin and an annular collecting cabin located on the periphery of the spiral feeding cabin are arranged in the vibrating disk main body, the annular collecting cabin is communicated with the spiral feeding cabin, and the lining output rail, the bolt rod output rail, the assembling fastener output rail and the lining separating part are located in the annular collecting cabin respectively.

The drawing omits the illustration of the specific embodiment, the spiral feeding cabin is used for respectively screening and supplying internal classified materials, the spiral feeding cabin is used for internal screening circulation of the pin rod and the bushing, the annular collecting cabin is used for discharging materials in the output process of the bushing and the pin rod, the spiral feeding cabin is mainly externally assembled and returned, the integral returned circulation is reliably and stably supplied, the lifting requirements of various assembled conveying lines can be met only by externally arranging the annular collecting cabin for modification and modification of the general vibrating disc main body, and the equipment cost is reduced.

Through the description, the automatic assembling vibration disc for the combined fastener can realize synchronous feeding, assembling and conveying of the combined fastener, simultaneously eliminate empty load parts, meet the completeness and continuity of output combined fasteners, avoid the condition that bushings are scrapped due to empty extrusion molding, and effectively control the manufacturing cost. The requirement of the same-tray screening supply of the bolt rod and the bushing is met, the screening sequence is reasonable and ingenious, the main structure of the vibration tray is more compact, and meanwhile, the assembly falling-back parts also participate in vibration supply circulation, so that the phenomenon of scattering of traditional assembly parts is avoided. The vibration disc is simple and ingenious in design and high-efficiency and smooth in operation, so that the combined fastener is more convenient and efficient to produce and process.

The terms "comprises," "comprising," or any other similar term are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is apparent to those skilled in the art that the scope of the present invention is not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims (6)

1. The utility model provides an automatic equipment vibration dish of combination fastener for the automatic equipment output of bush and peg, including vibration dish main part, its characterized in that:

a lining output track and a bolt rod output track which are used for classified output of the lining and the bolt rod are arranged in the main body of the vibration disk, the lining output track is connected with an output track of an assembly fastener,

the bolt rod output rail is provided with a discharging end located at the top of the output end of the bolt sleeve output rail, a bush discharging part used for discharging the unloaded bush and an assembling fastener output part extending out of the vibration disc main body are arranged on the assembling fastener output rail, and the bush discharging part is located in the vibration disc main body.

2. The automated assembly vibratory tray of gang fastener of claim 1, wherein:

the bush is arranged from the portion and is included two sections looks spaced setting's horizontal pay-off rail section, be located two upset level between the horizontal pay-off rail section arranges the material rail section, upset level is arranged material rail section and arbitrary be equipped with upset slope changeover portion between the horizontal pay-off rail section, upset level is arranged and is equipped with the level on the material rail section and divides the flitch, the level divides to be equipped with on the flitch to arrange the material window.

3. The automated assembly vibratory tray of modular fasteners of claim 1, wherein:

the vibration plate is characterized in that a mixture supply spiral channel used for supplying the lining and the bolt rod is arranged in the vibration plate main body, a lining screening mechanism and a bolt rod screening mechanism are sequentially arranged on the mixture supply spiral channel along the mixture supply direction, the lining screening mechanism is communicated with the lining output track, and the bolt rod screening mechanism is communicated with the bolt rod output track.

4. The automated assembly vibratory tray of modular fasteners of claim 3, wherein:

the lining screening mechanism comprises a lining discharge guide groove positioned on the mixture supply spiral channel, and a feeding end of the lining discharge guide groove is provided with an exposed guide plate used for exposing a rod body of the bolt rod and a material poking guide rod used for guiding, separating and draining the bolt rod to the mixture supply spiral channel.

5. The automated assembly vibratory tray of modular fasteners of claim 3, wherein:

the bolt rod screening mechanism comprises a guide vertical wall located on the mixture supply spiral channel, a rod body guide gap used for guiding the rod body is arranged between the guide vertical wall and a conveying bottom wall of the mixture supply spiral channel, and a falling groove used for allowing the lining to fall back is formed in the conveying bottom wall opposite to the rod body guide gap.

6. The automatic assembly vibration plate of a combination fastener according to any one of claims 1 to 5, characterized in that:

the vibration disc is characterized in that a spiral feeding cabin and an annular collecting cabin located on the periphery of the spiral feeding cabin are arranged in the vibration disc main body, the annular collecting cabin is communicated with the spiral feeding cabin, and the lining output track, the bolt rod output track, the assembling fastener output track and the lining separating part are located in the annular collecting cabin respectively.

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