JP2009166201A - Feeding device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a feeding device continuously and stably feeding polishing device with abrasive material containing a desired amount of moisture. <P>SOLUTION: The feeding device 101 for feeding the moisture-containing abrasive material 1 into the polishing device 100 comprises: a container 2 storing the abrasive material 1 and having a bore diameter that becomes smaller from the upper part toward the lower part; a connecting portion 3 connected to the polishing device 100 at the bottom of the container 2; a rotating shaft 4 striding over an inner wall of the bore of the connecting portion 3; a plurality of blades 5, 6, 7, and 8 having different lengths provided on the rotating shaft 4 for blocking the container 2 from the connecting portion 3; a rotating blade portion 9 for feeding the abrasive material 1 by rotating the plurality of the blades 5, 6, 7, and 8; and a driving means 10 for rotating and driving the rotating blade portion 9. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a supply device that supplies a polishing material containing moisture to a polishing apparatus, and in particular, can supply a polishing material containing a predetermined amount of moisture continuously and stably.

  A conventional supply apparatus includes a container formed in a hopper shape and a rotary valve connected to the lower part of the container, and the rotary valve is connected to the polishing apparatus, and supplies a desired abrasive to the polishing apparatus. Was.

  Since the conventional supply apparatus has a rotary valve connected to the lower part of the container, the introduction of the abrasive into the rotary valve relies on the weight of the abrasive. For this reason, when using abrasives containing moisture, the abrasives may stick together and ratholes are generated in the container, and the desired amount of abrasive may not be introduced into the rotary valve. was there.

  The present invention has been made to solve the above-described problems, and provides a supply device capable of continuously and stably supplying a polishing material containing a desired amount of moisture to a polishing device. With the goal.

The present invention provides a supply device for supplying a polishing material containing moisture to a polishing device,
A container formed with a shape in which the inner diameter becomes smaller as the abrasive is stored and moved from the upper part toward the lower part,
A connecting portion connected to the polishing apparatus at the bottom of the container;
A rotating shaft is disposed so as to straddle the inner wall of the connecting portion, a plurality of blades having different lengths are disposed on the rotating shaft so as to close the container and the connecting portion, and the plurality of blades rotate. A rotating blade part that feeds the abrasive by
Drive means for rotating the rotary blade portion.

Further, the present invention provides a supply device for supplying a polishing material containing moisture to a polishing apparatus,
A container formed with a shape in which the inner diameter becomes smaller as the abrasive is stored and moved from the upper part toward the lower part,
A connecting portion connected to the polishing apparatus at the bottom of the container;
A rotating shaft is disposed with the lower end extending to the connecting portion and the upper end extending substantially vertically to the upper side of the container, and the container and the connecting portion are closed on the lower end side of the rotating shaft and above the rotating shaft. A screw part that is arranged in a spiral shape on the side, and sends out the abrasive by rotating the blade;
And a driving means for rotationally driving the screw portion.

The supply device of the present invention is a supply device for supplying a polishing material containing moisture to a polishing device.
A container formed with a shape in which the inner diameter becomes smaller as the abrasive is stored and moved from the upper part toward the lower part,
A connecting portion connected to the polishing apparatus at the bottom of the container;
A rotating shaft is disposed so as to straddle the inner wall of the connecting portion, a plurality of blades having different lengths are disposed on the rotating shaft so as to close the container and the connecting portion, and the plurality of blades rotate. A rotating blade part that feeds the abrasive by
Since the driving means for rotating the rotary blade portion is provided, the polishing material containing a predetermined amount of moisture can be continuously and stably supplied to the polishing apparatus.

Further, the supply device of the present invention is a supply device for supplying a polishing material containing moisture to a polishing device,
A container formed with a shape in which the inner diameter becomes smaller as the abrasive is stored and moved from the upper part toward the lower part,
A connecting portion connected to the polishing apparatus at the bottom of the container;
A rotating shaft is disposed with the lower end extending to the connecting portion and the upper end extending substantially vertically to the upper side of the container, and the container and the connecting portion are closed on the lower end side of the rotating shaft and above the rotating shaft. A screw part that is arranged in a spiral shape on the side, and sends out the abrasive by rotating the blade;
Since the drive means for rotationally driving the screw part is provided, the polishing material containing a predetermined amount of moisture can be continuously and stably supplied to the polishing apparatus.

Embodiment 1 FIG.
Embodiments of the present invention will be described below. 1 is a diagram showing a configuration of a supply apparatus according to Embodiment 1 of the present invention. In the figure, a polishing apparatus 100 supplies a nozzle 102 for injecting a polishing material 1 containing moisture to a material to be polished, and compressed air 104 connected to the nozzle 102 and for sending the polishing material 1 to the nozzle 102. And a supply pipe portion 103 to be configured. The supply device 101 for supplying the polishing material 1 to the polishing device 100 stores the polishing material 1 containing a predetermined amount of water and has a container 2 formed in a shape in which the inner diameter decreases from the upper portion toward the lower portion, The connecting portion 3 connected to the supply pipe portion 103 of the polishing apparatus 100 at the bottom of the container 2, the rotating shaft 4 disposed so as to straddle the inner wall of the connecting portion 3, and the rotating shaft 4 connected to the container 2 A rotating blade portion 9 which is composed of a plurality of blades 5, 6, 7, 8 which are arranged so as to be closed with the portion 3, and rotate to feed the abrasive 1 to the polishing apparatus 100, and rotate. It is comprised with the drive means 10 which consists of a motor etc. which rotate the blades 5-8 by rotating the rotating shaft 4 of the blade | wing part 9, for example.

  The blades 5, 6, 7, and 8 are formed so as to close the container 2 and the connecting portion 3 as indicated by a dotted line A in FIG. The connecting part 3 is not completely closed. Of the blades 5, 6, 7, 8, the blades 5, 8 are formed with substantially the same length, and as shown in the state of FIG. 1A, the upper side of the blades 5, 6, 7 The blades 5, 6, 7 and the length of the blades are shortened in order, and the lower side of the blades 8, 7, 6 is formed so that the blades 8, 7, 6 and the length of the blades are shortened in order. Has been.

  Next, the operation of the supply device of the first embodiment configured as described above will be described. First, the abrasive 1 to which a desired amount of moisture is added is introduced and stored from the opening above the container 2. Next, the rotating shaft 4 is rotated by the driving means 10 to rotationally drive the blades 5 to 8. Then, a desired amount of the abrasive 1 is continuously supplied to the supply pipe portion 103 by the rotation of the rotary blade portion 9. At this time, since the lengths of the blades 5, 6, 7, and 8 are different, the abrasive 1 stored in the container 2 is scraped out efficiently. That is, a desired amount of the abrasive 1 is continuously supplied to the supply pipe 103 of the polishing apparatus 100 through the connecting portion 3 so as to scrape the abrasive 1 in the container 2. Then, the abrasive 1 and the compressed air 104 are mixed in the supply pipe portion 103 and injected from the nozzle 102 onto the material to be polished.

  The supply device according to the first embodiment configured as described above is provided with a plurality of blades having different lengths, and the abrasives are continuously scraped by the rotation of the blades as the blades rotate. Therefore, it is possible to prevent rat holes from being generated in the container due to adhesion between the abrasives, and the abrasives can be continuously and stably delivered to the polishing apparatus. For this reason, in the polishing apparatus, it is possible to continuously polish the material to be polished with a desired amount of polishing material, and it is possible to secure a better polishing state.

  In addition, the container shown in the above-mentioned Embodiment 1 should just be formed in the shape in which an internal diameter becomes small as it goes to the lower part from the upper part. For example, all the surfaces other than those shown in FIG. Needless to say, the inner diameter may be smaller from the upper part toward the lower part. In addition, although an example in which four blades are provided has been described, the present invention is not limited to this, and a plurality of blades having different lengths can achieve the same effect. Moreover, although the example which has arrange | positioned the blade | wing at the same location with respect to the rotation direction of a rotating shaft was shown, it is not restricted to this, It is arrange | positioned so that it may become alternate with respect to the rotating direction of a rotating shaft. Needless to say.

Embodiment 2. FIG.
FIG. 2 is a diagram showing the configuration of the supply apparatus according to Embodiment 2 of the present invention. In the figure, the same parts as those in the first embodiment are denoted by the same reference numerals and the description thereof is omitted. The supply device 110 that supplies the polishing material 1 to the polishing device 100 stores the polishing material 1 containing a predetermined amount of moisture and has a container 20 formed in a shape in which the inner diameter becomes smaller from the upper part toward the lower part, A connecting portion 30 that is connected to the supply pipe portion 103 of the polishing apparatus 100 at the bottom of the container 20, and a rotating shaft that is disposed such that the lower end side extends to the connecting portion 30 and the upper end side extends substantially vertically above the container 20. 11, a blade 40 disposed in a spiral shape on the lower side of the rotating shaft 11 so that the container 20 and the connecting portion 30 are closed on the upper side of the rotating shaft 11, and the rotating shaft 11 and the blade 40. The screw part 90 that feeds the abrasive 1 by rotating the blade 40 by the rotation of the rotating shaft 11, and the motor 40 that rotationally drives the blade 40 by rotating the rotating shaft 40 of the screw part 90, for example, Become Are constituted by a drive means 111.. As shown by the dotted line B in FIG. 2, the blade 40 is formed so as to close the container 2 and the connecting portion 3, but completely closes the container 20 and the connecting portion 30. Instead, a gap is generated between the container 20 and the connecting portion 30 by the rotation of the blade 40.

  Next, the operation of the supply device of the second embodiment configured as described above will be described. First, the abrasive 1 to which a desired amount of moisture is added is introduced and stored from the opening above the container 20. Next, the rotating shaft 11 is rotated by the driving means 110 to rotationally drive the blades 40. Then, a desired amount of the abrasive 1 is continuously supplied to the supply pipe portion 103 by the rotation of the screw portion 90. At this time, since the blades 40 are disposed on the rotating shaft 11 extending in the container 20 in the substantially vertical direction, the abrasive 1 in the container 20 is agitated by the rotation of the blades 40 and the abrasives 1 stick to each other. The phenomenon is reduced. Therefore, a desired amount of the abrasive 1 is continuously supplied to the supply pipe portion 103 of the polishing apparatus 100 through the connecting portion 30 while stirring the abrasive 1 in the container 20. Then, the abrasive 1 and the compressed air 104 are mixed in the supply pipe portion 103 and injected from the nozzle 102 onto the material to be polished.

  The supply device according to the second embodiment configured as described above supplies the abrasive continuously by rotating the blades disposed on the rotation shaft extending in the substantially vertical direction in the container. Further, since the abrasive in the container is agitated by the rotation of the blades, it is possible to prevent ratholes from being generated in the container due to sticking of the abrasives. From these things, an abrasive can be sent to a polisher continuously and stably. For this reason, in the polishing apparatus, it is possible to continuously polish the material to be polished with a desired amount of polishing material, and it is possible to secure a better polishing state.

  The shape of the blade is not limited to the shape shown in the second embodiment, and the container and the connecting portion are closed on the lower end side of the rotating shaft and spirally formed on the upper side of the rotating shaft. It goes without saying that other shapes may be used as long as they are arranged.

  In each of the above embodiments, the supply amount of the abrasive is not particularly shown. However, the supply amount supplies the polishing apparatus with a desired supply amount by appropriately changing the rotation speed of the rotating shaft by the driving means. Needless to say, you can. Therefore, if it is desired to change the supply amount, it can be easily handled by changing the rotational speed of the rotary shaft by the driving means.

It is a figure which shows the structure of the supply apparatus of Embodiment 1 of this invention. It is a figure which shows the structure of the supply apparatus of Embodiment 2 of this invention.

Explanation of symbols

1 abrasive, 2,20 container, 3,30 connecting part, 4,40 rotating shaft,
5, 6, 7, 8, 11 blades, 9 rotating blades, 10, 111 driving means,
90 Screw unit, 100 polishing device, 101, 110 supply device.

Claims (2)

In a supply device for supplying a polishing material containing moisture to a polishing device,
A container formed with a shape in which the inner diameter decreases as the abrasive material is stored and headed from the top to the bottom,
A connecting portion connected to the polishing apparatus at the bottom of the container;
A rotating shaft is disposed so as to straddle the inner wall of the connecting portion, and a plurality of blades having different lengths are disposed on the rotating shaft so that the container and the connecting portion are closed. A rotating blade portion that feeds out the abrasive by rotating,
A supply device comprising drive means for rotationally driving the rotary blade portion. In a supply device for supplying a polishing material containing moisture to a polishing device,
A container formed with a shape in which the inner diameter decreases as the abrasive material is stored and headed from the top to the bottom,
A connecting portion connected to the polishing apparatus at the bottom of the container;
A rotating shaft is disposed with the lower end side extending in a substantially vertical direction on the connecting portion and the upper end side on the upper side of the container, and the container and the connecting portion are closed on the lower end side of the rotating shaft. And a blade part is disposed in a spiral shape on the upper side of the rotation shaft, and the screw part that sends out the abrasive by rotating the blade, and
A supply device comprising drive means for rotationally driving the screw part.

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