JPH09103963A - Abrasive for abrasive water jet working, and method and device for processing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method and a device for processing abrasives which can reduce nozzle wear without decreasing their working ability. SOLUTION: From a nozzle 1 for ejecting abrasives 4, the abrasives are ejected and collided against a target plate 2. The target plate 2 is formed by a superhard plate, ceramics, etc. The abrasives 4 collided against the target plate 2 are collected by a hopper 3. The abrasives recovered by the hopper 3 are used in abrasive water jet working after removal of the abrasives smaller than a predetermined grain size by classification process.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for treating an abrasive used by adding it to a grinding liquid for abrasive water jet machining, and a treatment apparatus for carrying out the method.

[0002]

2. Description of the Related Art Water jet processing is known as a method for processing various materials such as cutting, cutting and boring. Above all, the abrasive water jet machining has been attracting attention because of its high grinding ability. In this processing method, an abrasive such as garnet or silica sand is added to water which is a grinding liquid, and this is added to 1000 to 4000 kgf.
Processing is performed by jetting from a nozzle at an ultrahigh pressure of / cm ² . By performing the water jet processing by adding the abrasive in this way, the grinding ability is significantly improved and the processing time can be shortened.

[0003]

As the abrasive used in the abrasive water jet processing, there are mineral type grit, cast iron grit, cast steel grit and the like. Among these, in the case of a mineral-based grit, a naturally-collected grit is used as it is after being crushed or melted and then classified. In the case of cast iron grit, cast steel grit, etc., they are used after being pulverized and classified after granulation. It is considered that these abrasives preferably have as sharp a surface portion as possible in order to increase the processing ability.

However, when machining is carried out using an abrasive having an excessively sharp portion on the surface as described above, the machining ability increases, but the wear of the nozzle for spraying the grinding fluid is significantly accelerated, There is a problem that the frequency of nozzle replacement increases. If a particle having a smooth surface is used in order to solve this problem, the processing ability is significantly reduced, and the effect of adding the abrasive is reduced.
Further, since the surface property of the object to be processed obtained after the processing becomes rough, there is a problem that the abrasive cannot be used depending on the application.

The object of the present invention is to solve the above problems of the prior art, and the object of the present invention is to reduce the nozzle wear without lowering the processing capacity. Moreover, it is an object of the present invention to provide a grinding material processing method and a processing apparatus therefor capable of obtaining a smooth processed surface.

[0006]

The method for treating an abrasive for abrasive water jet processing of the present invention is a method for treating an abrasive used by adding it to a grinding liquid for abrasive water jet processing. By spraying untreated abrasive from the nozzle and colliding with the target,
It is characterized in that the surface of the abrasive is conditioned.

The abrasive water treating apparatus for abrasive water jet processing of the present invention is an apparatus for treating abrasives used by being added to a grinding liquid for abrasive water jet processing. A nozzle to inject material,
A target for colliding the abrasives ejected from the nozzle and a hopper for collecting the abrasives after colliding with the target are provided.

The method for treating an abrasive for abrasive water jet processing of the present invention is a method for treating an abrasive used by adding it to a grinding liquid for abrasive water jet processing, which is untreated from a nozzle. Conditioning is performed on the surface of the abrasive by injecting the abrasive of (1) and sequentially colliding with a plurality of targets.

The processing apparatus for abrasives for abrasive water jet processing of the present invention is an apparatus for processing abrasives that is used by adding it to a grinding liquid for abrasive water jet processing, and is not used for polishing. A nozzle to inject material,
A plurality of targets arranged at a predetermined angle for sequentially colliding the abrasives ejected from the nozzle, and a hopper for collecting the abrasives after colliding with the targets. To do.

A method for treating an abrasive for abrasive water jet processing of the present invention is a method for treating an abrasive used by adding it to a grinding liquid for abrasive water jet processing, which is a polygonal barrel. The surface of the abrasive is conditioned by storing an untreated abrasive therein and rotating the barrel.

The processing apparatus for abrasives for abrasive water jet processing of the present invention is an apparatus for processing abrasives which is used by adding it to a grinding liquid for abrasive water jet processing, and which is not processed. It is characterized by having a polygonal barrel that stores the material and rotates around the central axis.

The method for treating an abrasive for abrasive water jet processing of the present invention is a method for treating an abrasive used by adding it to a grinding liquid for abrasive water jet processing, which is not applied to an acidic aqueous solution. The surface of the abrasive is conditioned by immersing the abrasive to be treated.

The processing apparatus for abrasives for abrasive water jet processing of the present invention is an apparatus for processing abrasives that is used by adding it to a grinding liquid for abrasive water jet processing, and contains an acidic aqueous solution. A pickling tank for immersing an untreated abrasive is provided.

The abrasive for abrasive water jet processing of the present invention is characterized by being conditioned by any of the above treatment methods.

According to the present invention, if the surface of an abrasive for abrasive water jet processing is conditioned by a predetermined method, an excessively sharp portion will be smoothed, and nozzle wear will be reduced within a range in which the processing ability is not deteriorated. It was made paying attention to the fact that it can be done.

In the method of treating an abrasive according to the present invention, an untreated abrasive is jetted toward the target. It is considered that the abrasive material that has collided with the target is impacted and the sharp part of the surface is smoothed.

In the processing apparatus according to the present invention for carrying out this processing method, an unprocessed abrasive is jetted from a nozzle at a predetermined pressure to collide with a target. Due to the impact at that time, the sharp part on the surface of the abrasive becomes smooth. After colliding with the target, the abrasive is collected by the hopper and used for processing.

Further, in a method for treating an abrasive material according to another structure of the present invention, a plurality of targets are provided in the above-mentioned treatment method, and an untreated abrasive material jetted from a nozzle is made to sequentially collide with the plurality of targets. It is a thing. In this method, the abrasive can collide with the target a plurality of times by spraying the abrasive once, so that the abrasive having a high degree of conditioning can be obtained.

In the processing apparatus according to the present invention for carrying out this method, an unprocessed abrasive is jetted from a nozzle at a predetermined pressure to collide with a target, and the abrasives after collision collide with the target one after another. Let By a plurality of collisions, the sharp part of the surface of the abrasive becomes smooth. After colliding with the target, the abrasive is collected by the hopper and used for processing.

The preferred spraying pressure of the abrasive in the processing method and the processing apparatus using the above target is 1 to 10 kg.
f / cm ² . If the injection pressure is lower than this range, the surface treatment effect of the abrasive cannot be obtained, and if it is higher than this range, the particles of the abrasive are broken and the weight of the abrasive recovered after the classification is reduced, which is not preferable.

In the method of treating an abrasive material according to still another structure of the present invention and the apparatus for carrying out this method, the untreated abrasive material is contained in a polygonal barrel. Then, by rotating this barrel, the surface of the abrasive is conditioned.

Further, in the method for treating an abrasive according to the present invention, which is a chemical method, the untreated abrasive is immersed in an acidic aqueous solution. This causes a chemical action on the surface of the abrasive,
The surface of the abrasive is conditioned. The pH of the acidic aqueous solution and the immersion time are preferably set so that the recovery rate of the abrasive after classification and recovery is 1 to 20% by weight, as will be described later. The acid that can be used in the acidic aqueous solution is not particularly limited, but inorganic acids such as hydrochloric acid, sulfuric acid and nitric acid, and organic acids such as acetic acid, formic acid and oxalic acid can be used.

In each of the above processing methods and processing apparatuses, the degree of conditioning of the surface of the abrasive can be grasped as a recovery rate (% by weight) of the abrasive after classification. That is, it can be considered that when the recovery rate is small, the processing effect is large, and thus the abrasive particles are excessively processed or broken, and the amount of the abrasive remaining after the classification and collection is reduced. Further, if this recovery rate is high, it can be considered that the sharp effect on the surface of the abrasive particles is not removed because the treatment effect is small, and there is almost no abrasive that decreases by classification. In this way, when the degree of conditioning of the surface of the polishing material is taken as the recovery rate of the polishing material after classification, the preferable recovery rate range is 1 to 20% by weight. If this recovery rate is less than 1% by weight, the effect of reducing nozzle wear during water jet processing cannot be obtained, and if it is more than 20% by weight, the grinding ability during water jet processing decreases, which is not preferable.

[0024]

Embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a schematic configuration of a processing apparatus for an abrasive for abrasive water jet processing according to a first embodiment of the present invention. As shown in FIG. 1, the abrasive treating apparatus of this embodiment includes a nozzle 1 for ejecting an abrasive 4, and a target plate 2 for colliding the abrasive ejected from the nozzle 1. There is. The target plate 2 is made of a cemented carbide plate, ceramics or the like. Further, the processing apparatus of this embodiment is provided with a hopper 3 for collecting the abrasive 4 after having collided with the target plate 2.

In the abrasive treating apparatus of the present embodiment having the above-mentioned structure, the abrasive ejected from the nozzle 1 collides with the target plate 2 at a high speed, and the impact of the collision causes the sharpness present on the surface of the abrasive. Smooth parts are removed. The abrasive material after the collision is collected by the hopper 3, and after the abrasive material having a particle size smaller than a predetermined particle size is removed by a classification process, the abrasive material is used for the abrasive water jet processing. When processing such as grinding is performed using the abrasive after such treatment,
The life of the nozzle can be extended without reducing the processing capacity.

FIG. 5 shows the number of treatments (the number of blasts) in the case of treating cast steel grit using the apparatus for treating abrasives of FIG.
And the abrasive recovery rate, the nozzle wear rate, and the grinding ability. The spraying pressure of the abrasive during processing is 5kg
f / cm ² . The abrasive recovery rate is a percentage of the weight of the abrasive recovered by the post-treatment classification treatment with respect to the weight of the abrasive before the above-mentioned treatment, and represents the degree of conditioning of the surface of the abrasive. In addition, the nozzle wear rate is
It is represented by the weight reduction of the nozzle per hour of the working operation. Further, the grinding ability is represented by a grinding weight per minute when grinding stainless steel.

From the same figure, the grinding ability shows a tendency that the number of treatments is improved up to about 5 times and then gradually decreased. On the other hand, the amount of nozzle wear greatly decreases with the number of treatments. In addition, the change in the polishing material recovery rate is very small. As described above, by using the abrasive water treating apparatus of the present embodiment, it is possible to significantly reduce nozzle wear while maintaining or improving the grinding ability of the abrasive. Moreover, there is almost no reduction in the weight of the abrasive. The surface after processing was also smooth.

FIG. 2 shows a schematic structure of a processing apparatus for abrasives for abrasive water jet processing according to a second embodiment of the present invention. 2A is a plan view of the processing apparatus of this embodiment, and FIG. 2B is a side view thereof. The apparatus of this embodiment includes a tubular body 5 having a triangular cross section, and the tubular body 5 has three target plates 5a, 5b, 5c. The untreated abrasive is sprayed from the introduction pipe 6 attached to the target plate 5c by using the nozzle 1 (not shown) similar to that shown in FIG. The sprayed abrasives fall by gravity and sequentially collide with the target plates 5a, 5b, 5c, 5a ... And finally fall into the hopper 3. As described above, in the apparatus of this embodiment, the processing can be performed a plurality of times by spraying the abrasive once, so that the processing time can be shortened.

FIG. 3 shows a schematic structure of a processing apparatus for abrasives for abrasive water jet processing according to a third embodiment of the present invention. As shown in the figure, the polishing material processing apparatus of this embodiment includes a regular octagonal barrel 7 that can rotate about a rotation axis 8. The unprocessed abrasive is stored in the barrel 7 and processed by rotating the barrel 7. According to the processing apparatus of this embodiment, the degree of conditioning of the surface of the abrasive can be adjusted by adjusting the rotation speed of the barrel 7. A baffle plate may be provided inside the barrel 7 in order to enhance the processing effect.

FIG. 4 shows a method of treating an abrasive for abrasive water jet processing according to a fourth embodiment of the present invention. In this embodiment, the untreated abrasive contained in the container 11 is immersed in the acidic aqueous solution 10 in the pickling tank 9 and immersed therein. After a lapse of a predetermined time, the abrasive is recovered by a known means such as washing with water and filtration. It is dried or used as it is for water jet processing.

According to the treatment method of the present embodiment, the immersion time of the abrasive in the acidic aqueous solution 10, the immersion temperature, the acidic aqueous solution 10
The degree of conditioning of the surface of the abrasive can be adjusted by changing the pH and the like. Further, according to the method of the present embodiment, it becomes possible to process a large amount of abrasive in a short time.

[0032]

According to the method of treating an abrasive for abrasive water jet processing of the present invention, the surface of the abrasive is conditioned by a predetermined method, so that an excessively sharp portion is smoothed and the processing ability is improved. It is possible to reduce nozzle wear without reducing In addition, the obtained processed surface becomes smooth.

Further, according to the abrasive treating apparatus for abrasive water jet processing of the present invention, the above method can be easily carried out and the degree of conditioning of the surface of the abrasive can be adjusted.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of a processing device for an abrasive for abrasive water jet processing according to a first embodiment of the present invention.

FIG. 2 (a) is a plan view showing a schematic configuration of a processing device for an abrasive for abrasive water jet processing according to a second embodiment of the present invention, and FIG. 2 (b) is a side view thereof.

FIG. 3 is a schematic configuration diagram of a processing device for an abrasive for abrasive water jet processing according to a third embodiment of the present invention.

FIG. 4 is a schematic view showing a method of treating an abrasive for abrasive water jet machining according to a fourth embodiment of the present invention.

5 is a diagram showing the relationship between the number of treatments, the abrasive recovery rate, the nozzle wear rate, and the grinding ability when the cast steel grit is processed using the abrasive processing apparatus of FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Nozzle 2, 5a, 5b, 5c ... Target plate 3 ... Hopper 4 ... Abrasive 5 ... Cylindrical body 6 ... Introducing pipe 7 ... Barrel 8 ... Rotating shaft 9 ... Pickling tank 10 ... Acidic aqueous solution 11, 12 ... Container

Front page continuation (72) Inventor Yoshikazu Ikemoto 3-1-1 Higashikawasaki-cho, Chuo-ku, Kobe-shi, Hyogo Inside Kawasaki Heavy Industries, Ltd. Kobe factory (72) Hirotsuna Kuchiki 3 Higashi-kawasaki-cho, Chuo-ku, Kobe-shi, Hyogo 1-1-1 Kawasaki Heavy Industries, Ltd. Kobe factory (72) Inventor Tsuyoshi Kimura 3-1-1, Higashikawasaki-cho, Chuo-ku, Kobe-shi, Hyogo Prefecture 1-1 Kawasaki Heavy Industries Ltd. (72) Inventor Fujiya Nogami Fukuoka No. 1-1 Hibata-cho, Tobata-ku, Kitakyushu, Japan Inside the Yawata Works, Nippon Steel Co., Ltd. (72) Kazumi Daitoku No.1-1-1, Hibata-cho, Tobata-ku, Kitakyushu, Kitakyushu, Fukuoka New Nippon Steel Co., Ltd. Yawata Works In-house (72) Inuma Osamu Inaoka 1-1, Tobata-cho, Tobata-ku, Kitakyushu-shi, Fukuoka In-house of Nippon Steel Co., Ltd. Yawata Steel (72) Inventor Tomoharu Shimogasa 1-1, Toibata-cho, Tobata-ku, Kitakyushu, Fukuoka Nippon Steel Co., Ltd., Yawata Works (72) Inventor Tomohiro Furuta Tobi, Tobata-ku, Kitakyushu, Fukuoka No. 1 Hatamachi New Nippon Steel Co., Ltd. Yawata Works

Claims (9)

[Claims] 1. A method of treating an abrasive, which is used by being added to a grinding liquid for abrasive water jet machining, wherein an untreated abrasive is jetted from a nozzle to collide with a target. A method of treating an abrasive for abrasive water jet processing, which comprises conditioning the surface of the abrasive. 2. A processing device for an abrasive, which is used by being added to a grinding liquid for abrasive water jet processing, comprising: a nozzle for injecting an untreated abrasive; and an abrasive ejected from the nozzle. And a hopper for collecting the abrasive after colliding with the target, the processing apparatus for abrasive for abrasive water jet processing. 3. A method of treating an abrasive used by adding it to a grinding liquid for abrasive water jet machining, which comprises ejecting an untreated abrasive from a nozzle to sequentially collide with a plurality of targets. The method for treating an abrasive for abrasive water jet machining is characterized in that the surface of the abrasive is conditioned by the above. 4. A treatment device for an abrasive used by being added to a grinding liquid for abrasive water jet processing, comprising a nozzle for injecting an untreated abrasive and an abrasive ejected from the nozzle. And a plurality of targets for sequentially colliding the target with each other, and a hopper for collecting the abrasive after colliding with the target, an apparatus for processing an abrasive for abrasive water jet machining. 5. A method for treating an abrasive used by adding it to a grinding liquid for abrasive water jet processing, wherein an untreated abrasive is contained in a polygonal barrel and the barrel is rotated. Accordingly, the method for treating an abrasive for abrasive water jet machining is characterized in that the surface of the abrasive is conditioned. 6. A processing device for abrasives used by being added to a grinding liquid for abrasive water jet machining, comprising a polygonal barrel for accommodating untreated abrasives and rotating about a central axis. A processing device for abrasives for abrasive water jet machining. 7. A method of treating an abrasive used by adding it to a grinding liquid for abrasive water jet processing, which comprises immersing an untreated abrasive in an acidic aqueous solution to obtain a surface of the abrasive. A method for treating an abrasive for abrasive water jet processing, which comprises: 8. An apparatus for treating an abrasive used by adding it to a grinding liquid for abrasive water jet machining, which comprises a pickling tank for containing an acidic aqueous solution and immersing an untreated abrasive in the tank. An apparatus for processing an abrasive for abrasive water jet processing, which is characterized by being provided. 9. An abrasive for abrasive water jet processing, which has been conditioned by the processing method according to any one of claims 1, 3, 5, and 7.