CN212831186U - Vibration dish feedway - Google Patents

Abstract

The utility model discloses a vibrating disk feeding device, which belongs to the technical field of vibrating feeding and comprises a material disk and a material disk discharging component connected with the material disk, wherein the material disk comprises a disk bottom, a disk wall and a spiral vibrating piece, the disk wall is arranged at the periphery of the disk bottom, and the spiral vibrating piece is arranged in a spiral rising manner along the disk wall from the disk bottom; the discharging assembly comprises a fixed seat and a discharging rail arranged on the fixed seat, the discharging rail is connected with the top of the spiral vibrating piece, at least one air blowing assembly is arranged on the discharging rail, the air blowing assembly comprises an air blowing pipe and an air pressure pump communicated with the air blowing pipe, and the included angle between the air blowing direction of the air blowing pipe and the vertical surface of the discharging rail is 30-50 degrees; the beneficial effects are that: through set up the subassembly of blowing on ejection of compact track, blow to piling up a plurality of parts together, blow off a plurality of parts and drop down from ejection of compact track, avoid getting into next process, cause machine failure or produce bad product.

Description

Vibration dish feedway

Technical Field

The utility model relates to a vibration pay-off technical field, concretely relates to vibration dish feedway.

Background

The vibrating disk is an auxiliary feeding device for automatic assembly or automatic processing machinery. 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 pulse electromagnet is arranged below the vibrating disc hopper, so that the hopper can vibrate in the vertical direction, and the inclined spring piece drives the hopper to do torsional vibration around the vertical shaft of the hopper. The parts in the hopper, as a result of being subjected to such vibrations, rise along a helical track. During the ascending process, the parts can automatically enter the assembling or machining position in a uniform state according to the assembling or machining requirements through screening or posture change of a series of tracks. The working purpose is to automatically, orderly, directionally and neatly arrange the disordered workpieces by vibration and accurately convey the disordered workpieces to the next procedure.

However, after the parts in the current vibration disc are screened by the rail, occasionally, a plurality of parts may be stacked together to form a "conglomerate part" and the conglomerate part is carried out to the next process from the rail, so that the processed product is unqualified and serious, and subsequent machine failure may be caused, and the loss is very large.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a vibration dish feedway to solve and to waste time and energy through the manual welding necklace, and the fragile problem that harms human eyes.

In order to solve the technical problem, the utility model discloses a technical scheme does: a vibrating plate feeding device comprises a material plate and a material plate discharging assembly connected with the material plate, wherein the material plate comprises a plate bottom, a plate wall and a spiral vibrating piece, the plate wall is arranged on the periphery of the plate bottom, and the spiral vibrating piece is spirally arranged along the plate wall in a rising manner from the plate bottom; the discharging assembly comprises a fixed seat and a discharging rail arranged on the fixed seat, the discharging rail is connected with the top of the spiral vibrating piece, at least one blowing assembly is arranged on the discharging rail, the blowing assembly comprises a blowing pipe and a pneumatic pump communicated with the blowing pipe, and the included angle between the blowing direction of the blowing pipe and the vertical plane of the discharging rail is 30-50 degrees

As the preferred proposal of the utility model, the blowing component is arranged at the part of the discharging track inside the charging tray.

As the preferred scheme of the utility model, the subassembly of blowing is provided with three groups, three groups the even setting in subassembly interval of blowing is in orbital one side of ejection of compact.

As the preferred scheme of the utility model, the subassembly of blowing is provided with six groups, three groups the subassembly of blowing sets up orbital one side of ejection of compact, three groups in addition the subassembly of blowing sets up orbital opposite side of ejection of compact.

As the preferred scheme of the utility model, the gas blow pipe through from locking shaft swing joint in the orbital bottom of ejection of compact, the gas blow direction of gas blow pipe blows to the orbital top of ejection of compact from bottom to top.

As the utility model discloses an optimal scheme, still be provided with spacing gatepost on the ejection of compact track, spacing gatepost is located between subassembly and the parts machining department of blowing.

As the utility model discloses a preferred scheme, still be provided with the bin outlet on the wall of a plate, the bottom of bin outlet with spiral trembler parallel and level.

The beneficial effect of adopting above-mentioned technical scheme is: through set up the subassembly of blowing on ejection of compact track, blow to piling up a plurality of parts together, blow off a plurality of parts and drop down from ejection of compact track, avoid getting into next process, cause machine failure or produce bad product.

Drawings

Fig. 1 shows a schematic structural view of the present invention;

fig. 2 shows a schematic structural view of the tray of the present invention;

fig. 3 shows a schematic structural diagram of the blowing pipe of the present invention when blowing the accumulated parts.

In the figure, 1, a disc wall; 2. a spiral vibrating piece; 3. a discharge rail; 4. limiting a door post; 5. a discharge outlet; 6. a fixed seat; 7. a main air inlet pipe; 8. a pneumatic pump; 9. a part; 10. an air blowing pipe; 11. self-locking shaft.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 and 2, the utility model provides a feeding device for a vibrating tray, which comprises a tray and a discharging component connected with the tray, wherein the tray comprises a tray bottom, a tray wall 1 and a spiral vibrating piece 2, the tray wall 1 is arranged at the periphery of the tray bottom, and the spiral vibrating piece 2 is spirally lifted from the tray bottom along the tray wall 1; the pulse electromagnet is arranged below the material tray, so that the material tray can vibrate in the vertical direction, the inclined spiral vibrating piece 2 drives parts in the material tray to do torsional vibration around the vertical axis of the parts, and the parts move along the spiral direction of the spiral vibrating piece 2. Ejection of compact subassembly includes fixing base 6 and locates ejection of compact track 3 on fixing base 6, and ejection of compact track 3 links up with spiral vibrating piece 2's top for the part that comes out from spiral vibrating piece 2 gets into next process from ejection of compact track 3. The part of the utility model is a small part such as a necklace buckle, which is easy to be accumulated together and blown away by the blowing pipe in the feeding process.

As shown in fig. 3, in order to screen the unqualified parts 9 stacked together on the discharging rail 3, at least one blowing assembly is arranged on the discharging rail 3, the blowing assembly comprises a blowing pipe and a pneumatic pump 8 communicated with the blowing pipe, the pneumatic pump 8 is used for pressurizing the blowing pipe, so that the blowing pipe is continuously blown, the stacked parts 9 on the discharging rail 3 are blown away and fall down, and the parts are prevented from entering the next process. The included angle between the blowing direction of the blowing pipe and the vertical surface of the discharging track 3 can be adjusted by itself, and in order to achieve a better screening effect, the included angle is preferably adjusted to be 30-50 degrees. The blowing pipe is movably connected to the bottom of the discharging rail 3 through a self-locking shaft, the self-locking shaft is equivalent to a shaft which is hinged with a screen and a main board of a notebook computer, the blowing angle of the blowing pipe can be adjusted and fixed automatically, and the operation is simple and convenient. In order to achieve a good screening effect, the blowing direction of the blowing pipe is preferably blown to the top of the discharging rail 3 from bottom to top, so that the stacked parts 9 are more easily blown away.

In order to avoid that blown parts fall to the outside of the material tray to cause difficulty in cleaning, the blowing assembly is preferably arranged at the part of the discharging rail 3, which is positioned inside the material tray, so that the blown parts can fall to the inside of the material tray every time and are easy to clean.

In some feasible embodiments, three groups of air blowing assemblies can be arranged, the three groups of air blowing assemblies are uniformly arranged on one side of the discharging rail 3 at intervals, and the three air blowing pipes are arranged in parallel, so that a better screening effect can be achieved.

In some possible embodiments, six groups of blowing assemblies can be arranged, three groups of blowing assemblies are arranged on one side of the discharging rail 3, the other three groups of blowing assemblies are arranged on the other side of the discharging rail 3, the blowing assemblies on two sides of the discharging rail 3 are symmetrically arranged, and the blowing pipes on two sides can blow air relatively, so that parts 9 accumulated on the discharging rail 3 can be blown off more easily.

When a plurality of blowing pipes are involved, a main air inlet pipe 7 is connected by a pneumatic pump 8, inserted into the disc wall 1 and connected with the plurality of blowing pipes in parallel.

In order to avoid that the former blowing assembly cannot blow away the parts 9 accumulated on the discharging rail 3, the discharging rail 3 is further provided with a limiting door post 4, and the limiting door post 4 is arranged between the blowing assembly and a part processing position so as to block the parts 9 which are not blown away at the back and avoid entering the next process. The width of the stop doorpost 4 is slightly wider than that of a single part, and the width of the parts accumulated together is basically larger than that of the single part, so that the parts 9 accumulated together can be easily blocked.

When the machine is stopped and is not used or the material is required to be changed for production, the material in the material tray needs to be completely cleaned out. Therefore, set up bin outlet 5 on the wall of the dish 1, the bottom and the spiral vibrating piece 2 parallel and level of bin outlet 5, the material in the charging tray can be followed spiral vibrating piece 2 and poured out from bin outlet 5, and it is very convenient, efficient to clear up the material.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and the scope of the invention is to be accorded the full scope of the claims.

Claims (7)

1. The feeding device for the vibrating plate is characterized by comprising a material plate and a discharging assembly connected with the material plate, wherein the material plate comprises a plate bottom, a plate wall and a spiral vibrating piece, the plate wall is arranged on the periphery of the plate bottom, and the spiral vibrating piece is spirally lifted along the plate wall from the plate bottom; the discharging assembly comprises a fixing seat and a discharging rail arranged on the fixing seat, the discharging rail is connected with the top of the spiral vibrating piece, at least one air blowing assembly is arranged on the discharging rail, the air blowing assembly comprises an air blowing pipe and an air pressure pump communicated with the air blowing pipe, and the included angle between the air blowing direction of the air blowing pipe and the vertical plane of the discharging rail is 30-50 degrees.

2. A vibratory pan feeding apparatus as set forth in claim 1 wherein said blowing assembly is disposed on a portion of said discharge track interior to said tray.

3. A vibratory pan feeding apparatus as set forth in claim 2 wherein said blow assemblies are arranged in three groups, said blow assemblies of three groups being spaced evenly on one side of said discharge rail.

4. A vibratory pan feeding apparatus as set forth in claim 2 wherein said blowing assemblies are arranged in six groups, three groups of said blowing assemblies being disposed on one side of said discharge rail and three other groups of said blowing assemblies being disposed on the other side of said discharge rail.

5. A vibratory pan feeding device as defined in claim 1 wherein the blow tube is movably connected to the bottom of the discharge rail by a self-locking shaft, the blow direction of the blow tube blowing from bottom to top to the top of the discharge rail.

6. A vibratory pan feeding apparatus as set forth in claim 1 wherein said discharge track is further provided with a spacing gate post, said spacing gate post being disposed between said blow assembly and a parts processing location.

7. A vibratory pan feeder as set forth in claim 1 wherein said pan wall is further provided with a discharge opening having a bottom flush with said spiral vibratory plate.

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