JP2004202504A - Chip recovering device in tip dresser - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a chip recovering device in a tip dresser, a device that surely removes chips sticking around an electrode tip, that restricts no operation posture of the tip dresser, and that realizes miniaturization of the device as well as enabling chips to be surely recovered. <P>SOLUTION: The chip recovering device in a tip dresser is structured such that a case 6 is each arranged to cover both sides of a cutter 2, that a blowing nozzle 10 for compressed air is each arranged in the case, with a discharging port 11 of chips also formed therein, that a guide plate 16 is placed between the nozzle and the cutter face for the purpose of blowing the compressed air to the cutter face and generating an eddy in the case, and that, with both sides of the cutter held between the two cases, the two cases are attachably/detachably joined with each other. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
[Industrial applications]
The present invention relates to a chip collecting device in a chip dresser that collects chips generated when shaping an electrode chip.
[0002]
[Prior art]
Electrode tips used for spot welding and the like are worn due to repeated welding operations, so that the electrode tips are periodically shaped to maintain welding quality. By the way, when shaping the electrode tip, swarf is generated. In order to collect the swarf, compressed air is blown into a cutter, and is generated when the electrode tip is shaped by polishing or grinding the electrode tip. A chip dresser for collecting chips is known. Specifically, a chip capturing case in which a brush shielding member is arranged at the insertion opening of the electrode tip is installed at the lower portion of the cutter, and compressed air is blown toward one surface side of the cutter to blow the air. There is a type in which chips generated when shaping an electrode tip are entrained, chips are caused to flow down to the other surface of the cutter together with air, and are collected in the chip capturing case from the other surface. (For example, refer to Patent Document 1).
[0003]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 2002-254174
[Problems to be solved by the invention]
By the way, in the above-mentioned conventional technology, the compressed air is blown toward one side of the cutter, the chips are entrained in the air, and the chips flow down to the other side of the cutter together with the air. -It is difficult to collect chips around the electrode tip inserted on one side. In addition, depending on the position of the tip dresser, there is a risk that chips flowing down to the other surface of the cutter may fly out of the shielding member, so that there is a limit to the position of the tip dresser in order to reliably collect chips. Further, there is a problem that the chip capturing case is formed long and the apparatus becomes large.
[0005]
SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the conventional technology, and has as its object to reliably remove chips attached to an electrode tip and to limit the operating posture of a tip dresser. It is an object of the present invention to provide a chip collecting device in a chip dresser that does not have a small size and that can reliably collect chips.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, a chip collecting device in a chip dresser according to the present invention has a case arranged on each side of a cutter, and the case is covered with a cover having an insertion hole for an electrode tip. A nozzle for blowing compressed air is arranged in each of the cases and a discharge port for chips is formed, and the compressed air is blown between the nozzles and the cutter surface to the cutter surface. A guide plate for generating a vortex is disposed, and both sides of the cutter are sandwiched between the two cases, and the two cases are removably fastened to each other.
[0007]
In addition, a flexible pipe is connected to each discharge port of the chips, and a chip accumulation box is connected to the other end of the flexible pipe to collect and collect chips from each discharge port at one place. It is characterized by doing so.
[0008]
【Example】
Embodiments of the present invention will be described with reference to the accompanying drawings.
FIG. 1 is an explanatory front view of a main part of a chip dresser according to the present invention, FIG. 2 is a plan view thereof, and FIG. 3 is a side view thereof.
[0009]
In the drawing, reference numeral 1 denotes a disk-shaped cutter holder, and the cutter holder 1 holds a cutter 2. Cases 6 and 6 each comprising a substrate 3, a side plate 4, and a partially open lid plate 5 are arranged on both surfaces of the cutter 2. The open surface of the case 6 is covered with a cover 7. Covered with.
[0010]
The substrate 3 of the case 6 is provided with screw holes 8, 8,..., And the cases 6, 6 are removably fastened to each other by screws 9 through the screw holes 8. .
[0011]
A nozzle 10 for blowing compressed air is disposed on the side plate 4 of the case 6, and a chip discharge port 11 is formed at a position opposite to the position where the nozzle 10 is disposed. The outlet 11 may be formed at an appropriate portion within the case 6.
[0012]
The cover plate 5 of the case 6 has an open portion 12 formed partially, and a guide plate 13 is arranged at an edge of the open portion 12.
[0013]
The cover 7 is fixed between the cover plate 5 and the substrate 3 and has a curved cross section so as to cover the case 6, and the cover 7 has electrode tips 14, 14 (shown by phantom lines). ) Is formed. Since the cover 7 is located at such a height that the electrode tips 14 and 14 are inserted, the entire chip dresser can be reduced in size, and the cover 7 may be formed in a square cross section. Further, if the cover 7 is made of a transparent member, the condition inside the case 6 can be always checked, so that the shaping work of the electrode tip 14 can be performed more reliably.
[0014]
The guide plate 13 arranged on the cover plate 5 forms a guide surface 16 inclined toward the cutter 2, and the guide surface 16 has a partially cutout portion 17 formed therein. Note that an air passage hole may be formed in the guide surface 16 instead of the cutout portion.
[0015]
In the tip dresser having the above-described configuration, the electrode tips 14, 14 are applied to both surfaces of the cutter 2, and the cutter 2 is rotated and the compressed air is blown out from the compressed air blowing nozzles 10, 10.
[0016]
By the rotation of the cutter 2, the electrode tips 14, 14 are shaped while emitting chips, and the generated chips are scattered around the cutter 2 and in the cases 6, 6. Therefore, the compressed air directed from the nozzles 10 and 10 toward the electrode tip 14 by the guide surface 16 of the ejection guide plate 13 blows off the chips scattered around the cutter 2 and removes the chips from the case 6. Forcibly guide the chips into the cutter 6 to prevent the cutter 2 from clogging.
[0017]
On the other hand, the compressed air that has passed through the notches 17 of the jet guide plate 13 from the nozzles 10 and 10 forms a partial vortex in the cases 6 and 6 and tries to adhere to the electrode tips 14 and 14. The powder is blown off, and as a result, the chips generated by shaping the electrode tip 14 are not attached to the cutter 2, the electrode tip 14, the case 6 and the cover 7, and are accompanied by the flow of the compressed air. It is led out to outlets 11 and 11, respectively.
[0018]
Then, as shown in FIG. 4 or FIG. 5, the working surface of the cutter 2 is located vertically (see FIG. 4), or the working surface of the cutter 2 is located left and right (see FIG. 5). Or, even if the tip dresser is located at an intermediate position between the two, that is, regardless of the attitude of the tip dresser, the chips generated by shaping the electrode tips 14, 14 are discharged from the nozzles 10, 10. The chips are forcibly led out to the respective outlets 11 by the flow of the compressed air, so that chips do not adhere to the cutter 2 and the electrode chips 14, and the chips are reliably collected.
[0019]
4 and 5, reference numeral 18 denotes a motor for rotationally driving the cutter 2, and reference numeral 19 denotes a transmission cable in which a transmission device for transmitting the rotational force of the motor 18 to the cutter 2 is provided. Is. Reference numeral 20 denotes a valve switch provided in the middle of a pipe 21 for sending compressed air to the nozzles 10, 10. As described above, FIG. 4 shows a state in which the working surface of the cutter 2 is installed vertically, and FIG. 5 shows a state in which the working surface of the cutter 2 is installed right and left. .
[0020]
FIG. 6 illustrates an example in which chips from the discharge ports 11 and 11 formed in the chip dresser are respectively received and accumulated in an accumulation box 23 installed at an appropriate portion by a flexible tube 22. , 22... And the collection box 23..., The chips from the plurality of chip dressers can be collected and collected in one place.
[0021]
【The invention's effect】
In the chip recovery device for the chip dresser according to the first aspect of the present invention, the chip and the chip attached to the electrode tip can be reliably removed, and the chip can be retained in the case. Absent. In addition, there is no limitation on the operating posture of the chip dresser, and the size of the chip dresser is further reduced, so that a chip collecting device in a chip dresser capable of reliably collecting chips is provided.
[0022]
The chip recovery device for a chip dresser according to the present invention described in claim 2 is a chip recovery device for a chip dresser that can easily and reliably manage the chips collected in addition to the above effects.
[Brief description of the drawings]
FIG. 1 is an explanatory front view of a main part of a chip dresser according to the present invention.
FIG. 2 is a plan view thereof.
FIG. 3 is a side view thereof. It is a front view of the cutter holding device.
FIG. 4 is an explanatory diagram in which a working surface of a cutter of a tip dresser is positioned up and down.
FIG. 5 is an explanatory diagram in which a working surface of a cutter of a tip dresser is positioned on the left and right.
FIG. 6 is an illustrative explanatory view of the accumulation and recovery of chips according to the present invention.
[Explanation of symbols]
2 cutter
6 cases 7 covers
9 Fastener 10 Compressed air blowing nozzle 11 Chip discharge port 14 Electrode tip 15 Electrode tip insertion hole 15
16 Guide plate 22 Flexible tube 23 Stacking box

Claims (2)

In a chip collecting device for a chip dresser that blows compressed air into the cutter and collects chips generated when the electrode tip is shaped by grinding or grinding the electrode tip, cases are arranged on both sides of the cutter. Then, each of the cases is covered with a cover having an insertion hole for an electrode tip, a nozzle for blowing compressed air is arranged in each of the cases, and a discharge port for cutting chips is formed. A guide plate for blowing the compressed air to the cutter surface and generating a vortex in the case is disposed between the two cases, and both surfaces of the cutter are sandwiched between the two cases. Characterized in that they are detachably fastened to each other. A flexible pipe is connected to each discharge port of the chip, and a chip accumulation box is connected to the other end of the flexible pipe so that chips from each discharge port are collected and collected in one place. The chip recovery device for a chip dresser according to claim 1, wherein:

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