KR20070081444A - A device for transporting a powder - Google Patents

Abstract

A powder transporting apparatus is provided to exclude use of a filter by using a dust collecting fan and sucking dusts generated when minute powder is transported. A power transporting apparatus includes a venturi tube(10), a powder suction pipe(11), an air supply pipe(12), a discharge pipe(13), a chamber(20), and a dust collecting fan(30). The venturi tube includes a plurality of passages. The powder suction pipe is installed in the passage of the venturi tube. The air supply pipe is installed in another passage of the venturi tube. The discharge pipe is installed in another passage of the venturi tube. The chamber is provided on a side of the discharge pipe. The dust collection fan is communicated with the chamber to suck dusts generated in minute powder. The chamber includes a discharge opening at a lower portion thereof. The tip end of the discharge pipe is spaced apart from the discharge opening by a predetermined distance.

Description

A device for transporting a powder}

1 is a view schematically showing a conventional powder transport apparatus.

2 is a view schematically showing a powder transport apparatus according to the present invention.

3 is a view illustrating another suction pipe of the powder transport apparatus according to the present invention.

* Brief description of the main symbols in the drawings *

10. Venturi tube 11..Powder suction tube

12..Air supply line 13..Outlet line

20. Chamber 30. Dust collection fan

31.duct 40. suction member

The present invention relates to a powder conveying apparatus, and more particularly, to a powder conveying apparatus for safely conveying a predetermined amount of a toner or a medicine made of fine powder harmful to a human body by a predetermined amount.

1 schematically shows a conventional powder conveying apparatus. Referring to the drawings, the conventional powder transfer device is a container (1) in which fine powder is stored, a chamber (2) for temporarily storing the fine powder sucked by a predetermined amount from the container (1), and the chamber (2). It consists of a vacuum pump tube (3) for forcibly sucking and transporting the fine powder stored in the). Vacuum pump tube 3 is a cross-shaped venturi tube, when the high-pressure air flows into one side (3a) and exits to the other side (3b), the negative pressure is formed inside the tube by the venturi effect (venturi effect) chamber ( The fine powder in 2) is sucked from another side 3a and exits to the other side 3b.

Meanwhile, dust is inevitably generated during the transfer of such fine powder, and finer dusts than the powder are filtered through the filter 4 provided inside the chamber 2, and the vacuum pump pipe ( It is exhausted to the outside through the other 3d flow path of 3).

However, such a conventional powder transfer device requires a high pressure because the filter 4 is provided inside the chamber 2, and as described above, the powder transfer device is included in the fine powder after suction and transport of a predetermined amount of the fine powder. An additional venting process is required to remove the dust. In addition, in order to fill a certain amount of fine powder in the chamber 2, a separate powder filling device 5 is required, there is a problem that the device is large in size.

The present invention is to solve the above problems, an object of the present invention is to provide a powder transport apparatus that can directly transfer only fine powder by removing the dust from the container in which the fine powder is stored without a filter.

In addition, another object of the present invention to provide a powder conveying device that can be configured in a compact size of the product.

Powder conveying apparatus according to the present invention for achieving the above object is a venturi tube having a plurality of flow paths, powder suction pipes and air supply pipes and discharge pipes provided in each flow path of the venturi tube, the chamber provided on the discharge pipe side, the chamber, Including a dust collecting fan for inhaling dust generated from the fine powder in communication with the chamber, the chamber is provided in the shape of a hopper having a discharge port in the lower portion, the inner end of the discharge pipe extending vertically is formed a predetermined distance away from the discharge port.

According to the present invention, the dust collecting fan is provided on the pipe duct, the pipe duct is provided on the upper portion of the chamber.

In addition, the powder suction pipe is further provided with a joint portion to easily suck the fine powder.

In addition, the powder suction tube is further provided with a suction member, the suction member is composed of a chamber, a rotating shaft penetrating the inside of the chamber, a motor for rotating the rotating shaft, and a rotation wing provided at one end of the rotating shaft to generate suction force when rotating. .

Hereinafter, with reference to the accompanying drawings, a powder transport apparatus according to a preferred embodiment of the present invention will be described in detail.

2 is a view schematically showing a powder transport apparatus according to the present invention. Referring to the drawings, the powder conveying apparatus of the present invention comprises a plurality of connecting pipes (11, 12, 13), a venturi pipe 10 having a plurality of flow paths for communicating the respective connecting pipes, It consists of a chamber 20 provided on one side, a dust collecting fan 30 connected to the chamber 20.

According to the present invention, the venturi tube 10 is a three-necked pipe, one side is connected to the powder suction pipe 11, the other side is connected to the air supply pipe 12, the other side is connected to the discharge pipe 13 It is.

The powder supply pipe 11 is connected to the container 1 in which the fine powder is stored, and at the end of the main body supply pipe 11, such as a bellows or a universal joint to easily suck the fine powder in the container 1. The joint part 11a is provided.

The air supply pipe 12 connects a compressor, various pumps 12a, and the like to form a pressure in the venturi pipe 10 for transporting fine powder. The air flow regulator 12b is provided in a conventional flexible tube. It is provided intervening.

As described in the prior art, the discharge pipe 13 is for discharging fine powder and air simultaneously out of the venturi pipe 10 by the Venturi effect. The discharge pipe 13 has a predetermined length and is provided to be accommodated in the chamber 20.

The chamber 20 is provided in a hopper shape and supported by an inverted triangle shape by the base 21. In addition, as shown in the figure, the venturi tube 10 is connected to the upper portion of the chamber 20 and the discharge port 22 is provided at the lower portion thereof, and the fine tube exits through the discharge tube 13 communicating with the venturi tube 10. Powder and dust is configured to be discharged to the outside through the chamber 20.

According to the present invention, the discharge pipe 13 accommodated in the chamber 20 is installed to extend vertically downward, the end of the discharge pipe 13 is formed a predetermined distance apart from the discharge port 22. This causes the fine powder to exit the outlet 22 by its own weight in the chamber 20 provided in the hopper shape, and the dust is externally provided by the dust collecting fan 30 provided in the upper portion of the chamber 20 through spaced intervals. To get out.

The dust collecting fan 30 is for forcibly suctioning and discharging only dust from the fine powder as described above, and includes a power control device 32 such as a transformer or a slide. In addition, the dust collecting fan 30 is installed in communication with the chamber 20 through the duct 31, preferably provided in the upper portion of the chamber 20 far from the discharge port (22). This is for improving the dust suction force by relatively increasing the flow velocity of the discharge pipe 13 side of the chamber 20.

Then, look at the operation of the powder transport apparatus according to the invention having the configuration as described above. In the figure, the solid line represents the flow of air, the thick dotted line represents the flow of fine powder, and the thin dotted line represents the flow of dust.

In order to transfer a predetermined amount of fine powder, first, the powder suction pipe 11 is connected to the container 1 in which the fine powder is stored. At this time, since the powder container 1 is closed and the suction radius is not so large, the position of the powder container 1 is appropriately moved every predetermined time using the joint portion 11a.

Subsequently, when air is supplied to the venturi tube 10 through the air supply pipe 12, the air begins to escape to the discharge tube 13, and the inside of the venturi tube 10 is made into a negative pressure state, and as a result, the powder suction pipe 11 Fine powder begins to be transferred to the discharge pipe (13).

The fine powder introduced into the chamber 20 through the discharge pipe 13 falls by its own weight, and is discharged through the discharge port 22 provided in the lower part of the chamber 20. The dust is discharged into the container, and the dust is sucked up by the dust collecting tray 33 due to the suction force generated by the dust collecting fan 30 in the space between the end of the discharge pipe 13 and the discharge port 22, and then separated and discharged. In addition, external air is also sucked through the discharge port 22 due to the suction force of the dust collecting fan 30, so that dust is not generated in the fine powder falling into the metering means 40 or the measuring container by its own weight. The rotational speed of the dust collecting fan 30 is appropriately adjusted according to the pressure set in the air supply pipe 12.

On the other hand, Figure 3 shows a powder suction tube of the powder transport apparatus according to another embodiment of the present invention, the suction end of the powder suction tube is provided with a suction member to easily suck the fine powder. The suction member 40 includes a cylindrical chamber 42 inserted into the container 1, a rotation shaft 44 penetrating the inside of the chamber, a motor 46 for rotationally driving the rotation shaft 44, and a rotation shaft. It is composed of a rotation wing 48 provided at one end of the 44 to generate a suction force during rotation. The rotation wing 48 may cross or cross an impeller or the like with a bar or an inclined plate spaced apart from each other. When the suction member 40 is connected to the powder suction pipe 11 and installed in the container 1, the fine powder can be easily sucked with a suction force of a lower pressure than in the prior art.

As described above in detail, the powder conveying apparatus according to the present invention provides a hopper-shaped chamber and at the same time extends the discharge pipe therein and sucks dust generated during the transport of fine powder using a dust collecting fan. It becomes unnecessary and can transfer the fine powder at low pressure, and furthermore, there is no need for an exhaust process for cleaning the filter, thereby improving work efficiency.

In addition, since the conveying apparatus according to the present invention does not require a separate powder filling apparatus, it is possible to compact the apparatus.

Claims (4)

A venturi tube having a plurality of flow paths, A powder suction pipe installed at one side flow path of the venturi pipe, An air supply pipe installed at another channel of the venturi pipe; A discharge pipe installed in another channel of the venturi pipe; A chamber provided on the discharge pipe side; It is connected to the chamber includes a dust collecting fan for sucking the dust generated from the fine powder, The chamber is provided in the shape of a hopper having a discharge port in the lower portion, the inside of the powder conveying apparatus, characterized in that the end of the discharge pipe formed vertically extending a predetermined distance from the discharge port. The method of claim 1, The dust collecting fan is characterized in that the powder transport apparatus is provided on the upper portion of the chamber. The method according to claim 1 or 2, Powder feed device, characterized in that the bellows-shaped joint portion is provided at the end of the powder suction pipe to easily suck the fine powder. The method according to claim 1 or 2, The suction member is further provided at the end of the powder suction pipe so as to easily suck the fine powder, The suction member includes a chamber, a rotating shaft penetrating the inside of the chamber, a motor for rotating the rotating shaft, and a rotation wing provided at one end of the rotating shaft to generate suction force when rotating.

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