KR101383101B1 - Multi-row powder suction transfer apparatus - Google Patents

Abstract

The present invention relates to a method for sucking and transferring powder received in crucibles after a powder plasticization process is completed. More specifically, the multi-row crucibles receiving the powder and transferred by a conveyor after the plasticization process is completed are stopped at a predetermined position by a sensor. After a crucible cover opening and closing unit for opening and closing crucible covers is lowered to lift up the crucible covers using a vacuum pad, it is moved upward. After the crucible cover opening and closing unit returns to a predetermined standby position, a suction and transfer unit for sucking the powder is positioned above the crucibles and is lowered to the crucibles. Suction nozzles suck the whole powder in the crucibles to transfer the powder to a storage hopper in a following process while gradually vacuuming and transferring. After the suction and transfer unit returns to the predetermined standby position, the cover opening and closing unit is positioned above the crucibles again and is lowered to close the covers. After the covers are closed, the conveyor operates again to finish the suction process. The present invention can make clean working environments by removing dust caused during the process, can prevent workers from getting muscular skeletal diseases due to repetitive work, and can reduce a number of the workers by automation.

Description

Multi-row powder suction transfer apparatus

The present invention relates to a multi-thermal powder suction transport apparatus for transporting a powder in a crucible in a crucible, which is moved through a conveyor, to a next process after the firing process is completed. In particular, the present invention relates to a multi-thermal powder suction transport apparatus comprising a lid opening and closing unit for opening and closing a crucible lid, and a suction transport unit for vacuum suction and conveying powder in the crucible sequentially.

In general, when the powder is fired in the firing process to improve the properties of the product by heating, it is put in a crucible to work.

However, according to the conventional method in this operation, the manpower is to manually collect the powder products in each crucible by hand to collect the container, the dust suction problem that occurs during the collection step, and the surrounding equipment due to the dust And secondary problems such as pollution of the factory.

Therefore, in the above work process, it is desirable to provide a method for collectively or automatically performing the collection process of the fired powder product, but it is still not provided a processing apparatus that satisfies all such requirements. to be.

Therefore, the present invention has been made to solve the above-mentioned problems of the prior art, the technical problem of the present invention is not a method of collecting by pouring the powder in the crucible to be discharged manually when the firing operation is completed, the dust generated in the crucible Its purpose is to collect it automatically and transfer it to the next step automatically.

The multi-thermal powder suction conveying apparatus of the present invention for solving the above technical problem is composed of a suction opening unit for vacuum suction and transport the powder in the crucible and a lid opening and closing unit for opening and closing the crucible lid.

 More specifically, a suction transfer unit comprising a vacuum generating unit positioned at the tip of the crucible to maintain and store a vacuum, a multi-row suction nozzle for sucking powder in a multi-row crucible, and powder sucked by the multi-row suction nozzle It is composed of a lid opening and closing unit consisting of a storage hopper and a series of vacuum pads for opening and closing the crucible lid.

After the firing process, the lid of the multi-row crucible placed on the pallet starts moving out of the kiln by a conveyor, and the multi-row crucible being moved is sensed and stopped by the limit switch sensor located under the lid opening and closing unit. The lid opening and closing unit located in the upper part of the multi-row crucible is lowered toward the stationary multi-row crucible so that the vacuum pad and the crucible lid come into contact with each other. When the vacuum pad is applied to the crucible, the crucible lid is adsorbed on the vacuum pad and adsorbed on the vacuum pad. The crucible lid is lifted up as the lid opening unit is lifted up to separate the crucible lid from the crucible, and the raised lid opening unit is moved back to the designated standby position by moving until it exits from the upper row of crucibles stopped in the conveyor direction. It is done.

After the lid opening and closing unit absorbs the lid and ascends to the top of the stopped multi-row crucible, moves to the conveyor traveling direction until it exits the top of the stopped multi-row crucible, and is located at the designated standby position, The suction conveying unit moves to the upper part of the crucible of the multi-row stationary and descends and inserts a multi-row suction nozzle into each crucible where the crucible lid is separated, and then sucks the powder in the crucible using the vacuum of the vacuum generating unit. Step down to suck all the powder of the crucible is characterized in that the transfer to the post-process through the low hopper.

As described above, according to the present invention, since the dust is sucked and transported using vacuum, no dust is generated due to the falling of the powder, and since the operator does not perform manual work, it is possible to maintain a clean working environment without inhaling dust. have.

In addition, it is possible to prevent a disaster such as musculoskeletal disorders, which may occur due to a repetitive operation such as a person manually pouring a crucible into a barrel in the related art, and it is possible to obtain an effect of reducing manpower consumption due to work.

1 is a front view of a schematic lid opening and closing unit according to an embodiment of the present invention.
2 is a front view of a schematic suction transfer unit according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the multi-molecular powder suction transport apparatus of the present invention.

Hereinafter, the following description is only an embodiment of the present invention, and the object of the present invention is not limited to the contents described in the embodiments described below, but the scope of the present invention is not limited thereto Various modifications and changes will be possible.

1 is a front view of a schematic lid opening and closing unit according to an embodiment of the present invention, Figure 2 is a front view of a schematic suction transfer unit according to an embodiment of the present invention.

The firing process according to the present invention performs the firing operation of the powder using a firing furnace. In accordance with the purpose of the present invention, the operation of safely collecting the powder in the crucible 11 of the multi-row that has been fired in the kiln and transporting it to the post process was automated.

First, after the firing operation is completed, the powder in the crucible 11 of the multi-row staying in the firing furnace for a predetermined time passes through the firing furnace and is discharged and moved outside the firing furnace through the conveyor 14.

After discharging to the outside of the kiln, the position of the lid opening and closing unit 8 located at the top of the moving conveyor 14 line and the multi-row crucible 11 on the conveyor 14 are placed on the same line, the lid Sensing is carried out by a limit switch sensor located below the opening / closing unit 8 so that the conveyor 14 line is stopped and the rows of crucibles 11 are waiting in place.

When the crucible 11 is signaled that the crucibles 11 are positioned at the lower portion through the limit switch sensor, the lid opening and closing unit 8 is lowered toward the stationary crucible 11 at the lower portion and attached to the lid opening and closing unit 8. When the vacuum pad 7 is brought into contact with the crucible lid 13, the lid opening and closing unit 8 stops descending.

A spring 12 is mounted on the top of the vacuum pad 7 to absorb the pressure generated when the lid opening and closing unit 8 descends, so that the crucible lid 13 or the crucible 11 may be cracked due to the falling pressure. Characterized in that to prevent.

The lid opening and closing unit (8), which has stopped falling, maintains a vacuum on the vacuum pad (7) through the vacuum generating unit to provide suction power, and the crucible lids (13) contacted by the suction force are adsorbed onto the vacuum pad (7). In this state, the lid opening and closing unit 8 is lifted upward to separate the crucible 11 and the crucible lid 13.

The lid opening / closing unit (8), which separates the crucible lid (13), moves from the top of the crucible (11) in the advancing direction of the conveyor (14) to stop at a designated waiting position, and when the next process of suction transfer is completed. The vacuum is maintained on the vacuum pad 7 until it is prevented from dropping the adsorbed crucible lid 13.

Next, the suction conveyance unit 10, which was waiting at the designated standby position on the upper side of the conveyor 14 on the opposite side of the firing furnace, moves in the direction of the firing furnace so that the inlet of the multiple crucible 11 in which the multiple suction nozzles 9 are stopped. Stop at the location that matches

The suction nozzle 9 has a cross-shaped hook on the bottom surface of the STS pipe 1 and the STS pipe 1 made of STS material, and is designed to touch the entrance of the crucible so as to enter the entrance of the crucible 11. Urethane cover (3) that wraps, and the outer end of the STS tube (1) to absorb the shock is inserted into the upper end of the urethane cover (3), the upper end and the bottom plate of the storage hopper (4) It is characterized by having a structure consisting of a push spring (2) coupled.

The suction transfer unit 10, which has been moved to coincide with the inlet of the crucible 11, is lowered so that the urethane cover 3 portion of the suction nozzle 9 enters the crucible 11 and enters the inlet of the crucible 11. The cross-shaped hook is caught, and the STS pipe 1 is further lowered by the descending force, and the urethane cover 3 is kept at the entrance of the crucible 11 by the compression force of the push spring 2.

After the STS pipe 1 descends, the suction of the powder in the crucible 11 proceeds according to the steps and may vary depending on the depth of the crucible 11 and the length of the nozzle.

The suction of the powder is sequentially vacuum suction using the vacuum force generated in the vacuum generator, and the sucked powder is transferred to the post process through the storage hopper (4).

The high pressure spray nozzle 5 is installed in the storage hopper 4 to inject air at high pressure to prevent the powders from sticking to the inside, and the air necessary for high pressure spray is sprayed using the air tank 6. It is done.

The vacuum degree during the vacuum suction of powder can be changed depending on the pipe diameter and conveying distance.

When the suction of the powder is completed, the suction transfer unit 10 is lifted up so that the suction nozzle 9 rises out of the crucible 11 and rises to the top of the crucible 11, and moves to the original designated standby position to stop.

When the suction transfer unit 10 has completed the movement to the original designated standby position, the lid opening and closing unit 8 that has been held by the suction of the crucible lid 13 is moved in the direction of the crucible 11 from the original designated standby position. The crucible lid 13 is then placed on the crucible 11 and lowered so that the crucible lid 13 is placed on the crucible 11 and the crucible lid 13 is released from the vacuum pad 7 while releasing the vacuum.

When the crucible lid 13 is removed from the vacuum pad 7, the lid opening and closing unit 8 moves up to return to the originally designated standby position, and the stopped conveyor 14 operates to fill the next powder. The empty crucible 11 is transferred.

As mentioned above, although the detailed Example of the multi-thermal powder suction conveying apparatus which concerns on this invention was described through the Example of this invention, this invention is not limited only to the content described in the above-mentioned Example, This invention It is obvious that various modifications, changes, combinations, and substitutions may be made by those skilled in the art within the scope of the present invention, depending on the design needs and various other factors.

1. STS tube 8. Lid opening and closing unit
2. Push spring 9. Suction nozzle
3. Urethane Cover 10. Suction Transfer Unit
4. Storage Hopper 11. Crucible
5. High Pressure Spray Nozzle 12. Spring
6. Air tank 13. Crucible lid
7. Vacuum Pad 14. Conveyor

Claims (5)

Suction transfer unit composed of a vacuum generating unit located at the tip of the crucible to maintain and store the vacuum, a multi-row suction nozzle for sucking the powder in the multi-row crucible, and a storage hopper for collecting the powder sucked by the multi-row suction nozzle And, it consists of a lid opening and closing unit consisting of a series of vacuum pads for opening and closing the crucible lid,
The storage hopper is provided with a high-pressure injection nozzle is installed in the multi-thermal powder suction transport device, characterized in that the injection of high pressure to prevent powder from sticking to the inside, the air required for high pressure injection using the air tank for injection. delete The method according to claim 1,
The suction nozzle has an STS tube made of STS material and a cross-shaped hook on the bottom surface of the STS tube, which is designed to touch the inlet of the crucible, and a urethane cover that wraps in the direction entering the crucible inlet, for absorbing shocks. STS tube is inserted into the outer tube of the lower end is coupled to the upper end of the urethane cover, the upper end is a multi-thermal powder suction transport apparatus characterized in that it has a structure consisting of a push spring coupled to the bottom plate of the storage hopper. delete The method according to claim 1,
And a limit switch sensor is mounted on a lower portion of the lid opening and closing unit.

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