KR100941852B1 - Vibrating feeder for powder coating - Google Patents

Abstract

The present invention relates to a vibrating feeder which can be transported to a subsequent process quickly by coating the powder coating uniformly without being entangled with each other.

According to the present invention, the vibrating vessel 10 consisting of the outer vessel 11 and the inner vessel 12, the vibration generator 8 connected to the vibrating vessel 10, and the workpiece 1 are dropped to the center of the vessel. Is disposed between the inlet 16 formed in the upper portion of the vibrating vessel 10, the outlet hole 22 formed in the periphery of the bottom surface of the inner container 12, the outer container 11 and the inner container 12 to be injected A passage member 24 extending spirally from the bottom to the top, and a discharge hole 23 formed in the outer container 11 so as to communicate with an upper end of the passage member 24, the inner container 12 of the In the center, there is provided a vibrating feeder for powder coating, characterized in that the diffusion member 30 is formed with a conical surface 31 or a curved surface 32 to allow the falling object (1) to hit and spread.

Bra, Metal, Powder Coating, Conveyor, Vibrating Feeder, Collision

Description

Vibrating feeder for powder coatings {Vibrating feeder for powder coating}

The present invention relates to a vibrating feeder for powder coating, and in more detail, when coating the powder coating on the falling coating, the coating of the powder coating is uniformly carried out without being entangled with each other, which can be quickly transferred to a subsequent process. It relates to a vibration feeder for powder coating coating of a new structure.

Metal clips or adjusting rings and other parts used in women's underwear bras or bags are molded of metal with appropriate strength or elasticity to prevent corrosion and to be harmless to the human body and to have a beautiful appearance. Painted or coated with paint.

In the method of resin coating or coating a metallic component, i.e., a coating material with a powder coating, when the size of the coating material is relatively small, it is difficult to coat the coating material by suspending individual coating materials through a jig and passing the powder coating booth. Therefore, in such a case, a plurality of workpieces are sequentially mounted on a belt conveyor and transported, followed by preheating by passing through an electric furnace, and then put into a vibration feeder where the resin powder is stored, thereby fixing the resin powder on the surface of the workpiece to form a resin coating layer. After that, the coated object with the resin coating layer is sequentially transferred by vibrating feeding method, and the belt conveyor is mounted again, and the resin coating layer is melted while passing through an electric furnace to heat the surface of the coating layer.

In order to coat the powder coating on the surface of the coating material which has been preheated in the coating process of the powder coating, the powder coating is first dropped on the surface of the coating material by dropping the coating material on a tank of a vibrating feeder containing powder coating such as nylon resin powder. By attaching to the vibration, guided to the discharge port formed in the periphery of the vibrating feeder tank by vibrating force is transferred to the conveyor to guide it to the next process.

However, when the coating material falls in the vibrating feeder tank containing the powder coating, the coating material mainly falls to the center of the vibrating feeder tank and takes considerable time to move by vibrating to the periphery of the tank. There was this. In addition, when the coating is concentrated in the center, the coatings are in the form of rings so that they can be interlocked with each other, so that the coatings are entangled with each other, and the coatings are not individually transported, so that the coating layer of the powder coating is uniformly formed. In the subsequent heat treatment process, the coating layer of the coating material was not smoothly and beautifully surface-treated, and there was a problem that the defect rate of the product was not small.

The present invention has been proposed in view of the problems of the conventional powder coating coating vibration feeder as described above, the present invention, when coating the powder coating on the coating to be dropped, the coating coated with the powder coating quickly without tangling each other It is to provide a vibration feeder for a powder coating coating of a new structure that can be transferred to a later process.

According to one feature of the present invention, the outer container 11 and the inner container 12 which is spaced apart at intervals 13 and the inner container 12 is a vibrating container 10 to contain the powder coating (2) And a vibration generator 8 connected to the vibrating vessel 10 to vibrate the vibrating vessel 10, and an inlet formed in the upper portion of the vibrating vessel 10 so that the object 1 is dropped into the center portion of the container. (16) and the outlet hole 22 formed in the periphery of the bottom surface of the inner container 12, the outflow hole 22 through which the object 1 guided to the periphery flows out, and between the outer container 11 and the inner container 12. Arranged and extending spirally from the bottom to the top and formed in the outer container (11) so as to communicate with the passage member 24, the workpiece (1) rides up and the upper end of the passage member 24, the workpiece (1) is external It includes a discharge hole 23 which is discharged to the center of the inner container 12, so that the falling object (1) to fall to hit and spread There is provided a vibrating feeder for powder coating, characterized in that the conical surface 31 or the convex curved surface 32 is formed with a diffusion member 30 is provided.

According to another feature of the present invention, at least a portion of the passage member 24 is formed with a perforated portion 25 through which the powder coating 2 to be transported by passing through the passage member 24, the perforated portion ( A collecting member 26 is formed at the lower portion of the lower portion 25 so as to receive the powder coating 2 passed therethrough, and an inner container 12 facing the collecting member 26 has a recovery hole for collecting the powder coating 2. 27) there is provided a vibration feeder for powder coating, characterized in that formed.

According to the present invention as described above, in the case of dropping the workpiece 1 into the vibrating vessel 10 containing the powder coating (2), the central portion of the inner container 12 which is a dropping point of the vibrating vessel 10 By providing a diffusion member 30 having a conical surface 31 or a convex curved surface 32 in which the object dropped on the object collides and diffuses evenly to the circumference, even if the object 1 falls in large quantities or falls continuously, Since it can be widely spread or dispersed by hitting the member 30, the workpieces 1 are prevented from tangling with each other or overlapping with each other, so that the powder coating 2 can be uniformly attached and coated on the diffusion member 30. Since the impact collides and falls to the circumferential part instead of the central part, when the workpiece 1 is transported in the circumferential direction by vibrating force, the moving distance to the outlet hole 22 of the inner container 121 of the radial circumference is shortened, so that the outflow hole God through 22 Can be discharged to the next process.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention. 1 is a cross-sectional view of an embodiment of the present invention, Figure 2 is a perspective view of the main portion, Figure 3 is an exploded view showing the positional relationship between the inner container 12 and the passage member 24 with the outer container 11 removed. . As shown, according to the present invention, a vibrating vessel 10 consisting of an outer vessel 11 and an inner vessel 12 spaced apart from each other, and a vibration generator 8 mounted below the vibrating vessel 10. It includes. A spring 9 is mounted on the lower portion of the vibrating vessel 10 to absorb shocks due to vibration. The inner container 12 contains powder coating 2 such as nylon powder supplied through the powder coating tube 15.

A cover 14 is formed in the upper opening of the vibrating vessel 10, and an inlet 16 through which the workpiece 1 falls is formed in the center of the cover 14. In addition, one side of the inlet 16 of the cover 14 is connected to the dust collecting hose 20 is connected to the dust collector not shown. In addition, a filter medium 17 made of a nonwoven fabric and a perforated plate 18 are sequentially stacked on the bottom surface of the inner container 12. An air inlet hole 19 is formed in the bottom of the vacuum container 10, and air is introduced from the outside. When air is introduced from the outside through the air inlet hole 19, the powder coating 2 slightly rises through the filter medium 17 and the perforated plate 18, so that the powder coating 2 is applied to the surface of the workpiece 1. Evenly and smoothly attached. Meanwhile, in order to prevent the injured powder coating 2 from leaking to the outside through the inlet 16, the injured powder coating is sucked and collected through the dust collecting hose 20 and reused.

A plurality of outlet holes 22 are formed at the periphery of the bottom of the inner container 12, that is, the upper portion adjacent to the perforated plate 18. In addition, a conveyor mechanism 7 to which the workpiece 1 is supplied is disposed at the upper portion of the vacuum container 10. Accordingly, the workpiece 1 dropped from the conveyor mechanism 7 is introduced into the vibrating vessel 10 through the inlet 16 of the cover 14 so that the powder coating 2 is coated. The coated object 1 is transported outward by vibrating force and flows out of the inner container 11 through the outlet hole 22 formed in the bottom circumference of the inner container 12. In the gap 13 between the inner container 12 and the outer container 11, a passage member 24 extending spirally from the bottom of the inner container 12 is formed. At the upper end of the passage member 24, a discharge hole 23 communicating with the outside of the outer container 11 is formed in communication. Accordingly, the workpiece 1 leaked through the outflow hole 22 is lifted up while being spirally transported by the vibration force on the passage member 24 and the vacuum container 10 through the discharge hole 23 communicating with the upper end thereof. Are exported outside).

In addition, at least a portion of the passage member 24 is formed with a perforated portion 25 through which the powder coating 2, which has escaped together with the workpiece 1, is formed, the powder coating (falling below the perforated portion 25) 2) A recovery member 26 made of a spiral plate for recovery is provided. And the recovery hole 27 which collect | recovers the powder coating material 2 into an inner container is formed in the side wall of the inner container 12 which faces this collection member 26 at appropriate intervals.

In the center of the bottom surface of the inner container 12, that is, the center of the perforated plate 18, a diffusion member 30 formed of a conical surface 31 is disposed to diffuse the fallen object 1 around the periphery. Accordingly, since the object 1 falling in large quantities hits the diffusion member 30 and is evenly distributed and distributed on the entire circumferential surface of the inner container 12, the injected object 1 is not tangled or overlapped with each other, evenly. The powder coating 2 is adhered and coated, and the time for reaching the outlet 22 formed at the periphery of the inner container 12 by vibration is also shortened, so that it can be quickly and smoothly discharged and transferred to a subsequent process. .

4 is a configuration diagram of another embodiment of the present invention, which shows that the convex curved surface 32 is formed on the top instead of the diffusion member 30 is formed in a conical shape. Even in the case of the diffusion member 30 of this type, when the workpiece 1 falls and collides with the convex curved surface 32 of the diffusion member 30, it is widely dispersed in all directions, so that the workpiece 1 is not tangled or overlapped. The powder coating can be coated uniformly and efficiently and discharged quickly.

1 is a schematic front cross-sectional view of an embodiment of the present invention.

2 is a perspective view of main parts of the embodiment;
3 is a schematic external view of a state in which the outer container of the embodiment is removed;

4 is a perspective view of main parts of another embodiment of the present invention;

Claims (2)

An outer container 11 and an inner container 12 spaced apart from each other at an interval 13, and the inner container 12 includes a vibrating container 10 in which powder coating 2 is contained, and the vibrating container 10. A vibration generator 8 connected to the vibration container 10 to vibrate, an inlet 16 formed in the upper portion of the vibration container 10 so that the workpiece 1 falls into the center portion of the container, and the inner container. (12) formed in the periphery of the bottom and is disposed between the outflow hole 22 through which the object 1 guided to the periphery flows out, and the outer vessel 11 and the inner vessel 12, spirally from the bottom to the top A passage member 24 which extends and the workpiece 1 rides up and is formed in the outer container 11 so as to communicate with the upper end of the passage member 24 and the discharge hole 23 through which the workpiece 1 is discharged to the outside. It includes, in the center of the inner container 12 conical surface (31) or convex to allow the falling object (1) to be bumped and spread Surface 32 coated vibrating feeder for powder coatings, characterized in that a provided with a diffusion member (30) is formed. According to claim 1, At least a portion of the passage member 24 is formed with a perforated portion 25 through which the powder coating (2) to be carried through the passage member 24, the lower portion of the perforated portion 25 The collecting member 26 is formed to receive the powder coating 2 passed therethrough, and the inner container 12 facing the collecting member 26 is formed with a collecting hole 27 for recovering the powder coating 2. Vibrating feeder for powder coating, characterized in that.

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