CN-224222004-U - Vibration dish with convenient backward flow structure

Abstract

The utility model discloses a vibration disk with a convenient backflow structure, which comprises a vibration source body, a feeding disk, a direct vibration track, a detection optical fiber sensor, screening airflow holes, an extended backflow surface and a guide groove. Through the mode, the vibrating plate with the convenient backflow structure has the advantages that the effect of convenient backflow circulation of products removed by the direct vibration track is achieved through the arrangement of the extending backflow surface, the structure of the vibrating plate is effectively simplified, research and development and manufacturing costs are saved, human debugging and maintenance are not needed, butt joint is simple and reliable, the use safety is improved, the energy consumption of equipment is greatly reduced, and the vibrating plate is more energy-saving and environment-friendly.

Inventors

• LIU SHENG

Assignees

• 苏州明卓自动化技术有限公司

Dates

Publication Date

20260512

Application Date

20250523

Claims (7)

1. 1. A vibration disk with a convenient reflux structure is characterized by comprising a vibration source body, a feeding disk, a direct vibration track, a detection optical fiber sensor, a screening airflow hole, an extended reflux surface and a guide groove, The feeding disc is arranged on the vibration source body, the direct vibration track is connected with the feeding disc, and the linear flow channel on the direct vibration track is communicated with the spiral flow channel on the feeding disc, so that products enter the linear flow channel along the spiral flow channel for screening, the detection optical fiber sensor for detecting whether the product is oriented correctly is arranged above the direct vibration track, the air flow hole is arranged on the side wall of the linear flow channel, air injection is carried out according to the screening result of the detection optical fiber sensor, and the products oriented incorrectly are blown away from the linear flow channel, The feeding disc is characterized in that the outer periphery of the feeding disc is integrally provided with an extending reflux surface, the inner end of the extending reflux surface extends into the feeding disc or is communicated with the spiral flow channel, the outer end of the extending reflux surface extends to the side surface or the lower side of the direct vibration track, the side surface of the extending reflux surface is provided with a protection plate, the extending reflux surface is provided with a plurality of concave guide grooves, one end of each guide groove extends towards the direction of the direct vibration track, and the other end of each guide groove extends towards the direction of the spiral flow channel, so that products flow back to the lower layer of the feeding disc along the direction of the guide grooves.
2. 2. The vibration plate with a convenient reflow structure of claim 1, wherein the detecting fiber sensor is disposed on the feeding disc by a bracket.
3. 3. A vibrating disk with a convenient reflow structure in accordance with claim 1, wherein the extended reflow surface is a fan-shaped structure.
4. 4. The vibration plate with the convenient reflow structure of claim 1, wherein the feeding disc and the extending reflow surface are made of aluminum profiles.
5. 5. The vibration plate with a convenient reflow structure of claim 1, wherein the outer end of the extended reflow surface is inclined outwardly so that an included angle is formed between the extended reflow surface and the feeding disk.
6. 6. A vibrating disc with a convenient reflow structure in accordance with claim 1, wherein the guide slot is a straight or bent structure.
7. 7. A vibrating tray with a convenient return structure as claimed in claim 1, wherein the diameter of the guide groove is smaller than the radius of the product.

Description

Vibration dish with convenient backward flow structure Technical Field The utility model relates to the technical field of vibration disks, in particular to a vibration disk with a convenient backflow structure. Background The existing automatic feeding vibration disc is convenient for carry out screening of product orientation and guarantees stability during screening, optical fibers and air flow are often equipped on the direct vibration track for screening, and then because the direct vibration track is a straight surface, the feeding disc is a spiral curved surface, screening on the straight surface is more stable than the curved surface, and the screening is not easily influenced by vibration frequency. Because only one line is needed when the feeding disc is in butt joint with the direct vibration track, when the traditional vibration disc is used for selecting materials on the direct vibration track, the screened products need to be replaced into the disc manually, or a set of reflux device needs to be arranged, so that the rejected products can be sent back into the disc again for recycling. However, these methods are either time consuming, labor consuming and unstable in accuracy, or require the development and manufacture of various parts and the separate access to a control unit, which makes the whole set of vibration disk apparatus more complex, increases costs and later maintenance difficulties, and thus requires improvement. Disclosure of utility model In order to solve the technical problems, the utility model adopts a technical scheme that: Provides a vibrating disk with a convenient reflux structure, which comprises a vibrating source body, a feeding disk, a direct vibration track, a detection optical fiber sensor, a screening airflow hole, an extended reflux surface and a guide groove, The feeding disc is arranged on the vibration source body, the direct vibration track is connected with the feeding disc, and the linear flow channel on the direct vibration track is communicated with the spiral flow channel on the feeding disc, so that products enter the linear flow channel along the spiral flow channel for screening, the detection optical fiber sensor for detecting whether the product is oriented correctly is arranged above the direct vibration track, the air flow hole is arranged on the side wall of the linear flow channel, air injection is carried out according to the screening result of the detection optical fiber sensor, and the products oriented incorrectly are blown away from the linear flow channel, The feeding disc is characterized in that the outer periphery of the feeding disc is integrally provided with an extending reflux surface, the inner end of the extending reflux surface extends into the feeding disc or is communicated with the spiral flow channel, the outer end of the extending reflux surface extends to the side surface or the lower side of the direct vibration track, the side surface of the extending reflux surface is provided with a protection plate, the extending reflux surface is provided with a plurality of concave guide grooves, one end of each guide groove extends towards the direction of the direct vibration track, and the other end of each guide groove extends towards the direction of the spiral flow channel, so that products flow back to the lower layer of the feeding disc along the direction of the guide grooves. In a preferred embodiment of the utility model, the detecting fiber sensor is arranged on the feeding disc through a bracket. In a preferred embodiment of the present utility model, the extended return surface is a fan-shaped structure. In a preferred embodiment of the present utility model, the feeding disc and the extended return surface are made of aluminum profiles. In a preferred embodiment of the present utility model, the outer end of the extending return surface extends obliquely outwards, so that an included angle is formed between the extending return surface and the feeding disc. In a preferred embodiment of the present utility model, the guide groove is a straight line or a bent structure. In a preferred embodiment of the utility model, the diameter of the guide groove is smaller than the radius of the product. The utility model has the beneficial effects that the effect of convenient backflow circulation of products removed by the direct vibration rail is realized by arranging the extended backflow surface, the structure of the vibration disc is effectively simplified, the research and development cost and the manufacturing cost are saved, the debugging and maintenance by people are not needed, the butt joint is simple and reliable, the use safety is improved, the energy consumption of equipment is greatly reduced, and the energy is saved and the environment is protected. Drawings For a clearer description of the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embo