JP7383455B2 - electrode holder - Google Patents

Description

The present invention relates to an electrode holder for holding an electrode rod of a spot welder.

For example, as shown in Patent Document 1 below, there is a spot welding machine that welds the workpiece by pressing an electrode rod against the material to be welded (workpiece) and passing a large current through the electrode rod to the workpiece for a short time. Are known. In such a spot welding machine, the electrode rod is held by an electrode holder, and the tip of the electrode rod is pressed against the workpiece by moving the electrode rod together with the electrode holder.

An example of the structure of this type of electrode holder that has been conventionally used is the structure shown in FIG. FIG. 5 is a right side view showing a conventional electrode holder. As shown in FIG. 5, the conventional electrode holder includes a main body block 100, a first support part 101, and a second support part 102, which are integrally formed with each other. The first and second support parts 101 and 102 protrude from the front surface of the main body block 100 at positions separated from each other in the height direction of the main body block 100. The first and second support parts 101, 102 are fastened together by the bolt 103 inserted into the distal ends in the longitudinal direction of the first and second support parts 101, 102, so that the first and second support parts 101, 102, The electrode rod 2 is held between the electrodes 102.

Japanese Patent Application Publication No. 5-031585

In the conventional electrode holder as described above, the distal ends of the first and second support parts 101 and 102 protruding from the front surface of the main body block 100 are fastened at positions separated from each other in the height direction of the main body block 100. Therefore, the electrode rod 2 is held between only the longitudinal ends of the first and second support parts 101 and 102, and the electrode rod 2 may not be held sufficiently. If the electrode rod 2 is not held sufficiently, when the electrode rod 2 is moved together with the electrode holder and pressed against the workpiece, sufficient load cannot be applied to the electrode rod 2 and the workpiece, resulting in welding abnormalities. There is a possibility that this may occur.

The present invention has been made to solve the above-mentioned problems, and one of its purposes is to provide an electrode holder that can more reliably hold an electrode rod and reduce the possibility of welding abnormalities occurring. It is.

One aspect of the electrode holder according to the present invention includes a holder main body having a main body block and a support part for supporting the electrode rod from below, and a holder main body that is separable from the holder main body and is provided between the support part and the main body block. The electrode rod is a cylindrical member extending linearly, and includes a divided body disposed above the support part so as to sandwich the electrode rod, and a fastening part that fastens the support part and the divided body. is provided with a front surface and a back surface that are spaced apart from each other in the depth direction of the main body block.The front surface is the peripheral surface of the main body block located on the tip side of the electrode rod, and inside the main body block An insertion hole is provided that extends in the depth direction and is open on the front and back sides, and an electrode rod is inserted into the insertion hole. It is a flat plate-shaped protruding piece that protrudes from the front surface of the support part, and a first recess is provided on the upper surface of the support part, and the first recess is arranged so as to be continuous with the insertion hole of the main body block. The first recess extends in the depth direction of the block, and has a shape matching the cross-sectional shape of the radial lower part of the electrode rod, and the radial lower part of the electrode rod is accommodated in the first recess. A second recess is provided on the lower surface of the divided body, the second recess extends in the depth direction of the main block, and the second recess matches the cross-sectional shape of the upper part of the electrode rod in the radial direction. The upper part of the electrode rod in the radial direction is housed in the second recess, and the upper part of the electrode rod in the radial direction is accommodated in the support part and the divided body. , a pair of insertion holes are provided in the supporting part and the divided body, which are spaced apart from each other in the width direction so that the electrode rod is located between them, and the fastening part is inserted through the insertion hole of the supporting part and the divided body. , a pair of bolts inserted through the split body and the support part from the top of the split body to the bottom of the support part, and a bolt of the support part that extends in the width direction of the main block and is shared by the pair of bolts. The nut plate is placed on the lower side, and the tip of the bolt that passes through the insertion hole of the support part and the split body is screwed into the nut plate. A nut plate is arranged on the upper side of the split body so that the nut plate extends in the width direction of the main block and is commonly used by a pair of bolts. It has a washer plate interposed between the upper surface of the divided body and the bolt head of the bolt .

According to one aspect of the electrode holder of the present invention, since the electrode rod is held between the divided body and the support part that are provided separably from the holder main body, the electrode rod can be held over a wider area. Thereby, the electrode rod can be held more reliably and the possibility of welding abnormalities occurring can be reduced.

FIG. 2 is a right side view showing an electrode holder according to an embodiment of the present invention. FIG. 2 is an explanatory diagram showing the electrode holder of FIG. 1 in an exploded state. 2 is a front view showing the electrode holder of FIG. 1. FIG. FIG. 2 is a plan view showing the electrode holder of FIG. 1. FIG. FIG. 3 is a right side view showing a conventional electrode holder.

The present invention is not limited to each embodiment, and can be embodied by modifying the constituent elements without departing from the gist thereof. Moreover, various inventions can be formed by appropriately combining a plurality of components disclosed in each embodiment. For example, some components may be deleted from all the components shown in the embodiments. Furthermore, components of different embodiments may be combined as appropriate.

FIG. 1 is a right side view showing the electrode holder 1 according to the embodiment of the present invention, FIG. 2 is an explanatory view showing the electrode holder 1 of FIG. 1 in an exploded state, and FIG. 3 is a right side view showing the electrode holder 1 of FIG. 4 is a front view showing the electrode holder 1 of FIG. 1. FIG. Note that the left side view of the electrode holder 1 appears symmetrical to the right side view.

The electrode holder 1 of this embodiment shown in FIGS. 1 to 4 is a member for holding an electrode rod 2. As shown in FIG. An actuator (not shown) is connected to the electrode holder 1. The electrode holder 1 is provided so as to be movable together with the electrode rod 2 in the extending direction 2e of the electrode rod 2 under the driving force of an actuator. By moving the electrode holder 1 together with the electrode rod 2, the tip 2t of the electrode rod 2 can be pressed against the material to be welded (workpiece). The workpiece may be a pair of metal materials stacked on top of each other. A power cable (not shown) is connected to the electrode holder 1, and current supplied from the power cable is passed through the electrode rod 2 to the workpiece. The workpieces are welded by passing a large current through the workpieces for a short period of time.

As shown in FIGS. 1 and 2, the electrode holder 1 of this embodiment includes a holder main body 3, a divided body 4, and a fastening portion 5.

<About the holder body>
The holder main body 3 includes a main body block 30, a support portion 31, and a thickened portion 32 that are integrally provided with each other. Although not limited, the holder body 3 can be made of metal as a whole, and can be used as a current path to the electrode rod 2.

The main body block 30 is a solid body having a height direction, a depth direction, and a width direction that are orthogonal to each other. Although the outer shape of the main body block 30 is arbitrary, the main body block 30 of this embodiment has a substantially square columnar outer shape. The height direction of the main body block 30 may be synonymous with the vertical direction. The depth direction of the main body block 30 may be synonymous with the extending direction 2e of the electrode rod 2 held by the electrode holder 1.

The main body block 30 is provided with a front face 30a and a back face 30b that are spaced apart from each other in the depth direction of the main body block 30. The front surface 30a is the peripheral surface of the main body block 30 located on the tip 2t side of the electrode rod 2.

Inside the main body block 30, an insertion hole 30c is provided which extends in the depth direction of the main body block 30 and opens at the front surface 30a and the rear surface 30b. The electrode rod 2 is inserted through the insertion hole 30c. The insertion hole 30c of this embodiment has an inner diameter larger than the outer diameter of the electrode rod 2.

The support part 31 is a protruding piece protruding from the front surface 30a of the main body block 30, and is a part for supporting the electrode rod 2 from below. Although the outer shape of the support portion 31 is arbitrary, the support portion 31 in this embodiment has a flat plate shape extending in the depth direction of the main body block 30.

As particularly shown in FIG. 3, the upper surface of the support portion 31 is provided with a first recess 31a. The first recess 31a is disposed so as to be continuous with the insertion hole 30c of the main body block 30, and extends in the depth direction of the main body block 30 (the longitudinal direction of the support portion 31). The first recess 31a has a shape that matches the cross-sectional shape of the radial lower portion of the electrode rod 2, and the radial lower portion of the electrode rod 2 is accommodated in the first recess 31a. It is preferable that the electrode rod 2 is in surface contact with the support portion 31 over the entire area of the main body block 30 in the depth direction.

The thickened portion 32 is a portion provided between the front surface 30a of the main body block 30 and the lower surface of the support portion 31. The thickened portion 32 has a thicker wall thickness at the proximal end of the supporting portion 31 compared to the wall thickness (or plate thickness) at the distal end of the supporting portion 31 . It is preferable that the thickened portion 32 is provided at the lower part of the support portion 31 over the entire widthwise area of the main body block 30 . Although the outer shape of the thickened portion 32 is arbitrary, the thickened portion 32 of this embodiment has a shape having an arcuate outer surface. As will be explained later, the divided body 4 is fastened to the support part 31 by the fastening part 5. During this fastening operation, a load is applied to the support portion 31 from above to below. By providing the thickened portion 32, the support portion 31 can withstand a larger load.

It is preferable that the corners of the holder main body 3 are chamfered. In other words, it is preferable that the corner portion is a C-plane or an R-plane. In the holder main body 3 of this embodiment, all corners of the main body block 30 are chamfered. Other corners of the holder main body 3, such as the corners of the support portion 31, may be chamfered. However, the corners of the holder main body 3 may not be chamfered.

<About split bodies>
The divided body 4 is a member that is separable from the holder main body 3. The divided body 4 is adapted to be placed above the support part 31 so that the electrode rod 2 is sandwiched between the divided body 4 and the support part 31 .

As particularly shown in FIG. 3, the lower surface of the divided body 4 is provided with a second recess 4a. The second recess 4a extends in the longitudinal direction of the divided body 4. The longitudinal direction of the divided body 4 can be understood as the depth direction of the main block 30. The second recess 4a has a shape that matches the cross-sectional shape of the radial upper portion of the electrode rod 2, and the radial upper portion of the electrode rod 2 is accommodated in the second recess 4a. It is preferable that the electrode rod 2 is in surface contact with the divided body 4 over the entire area of the main body block 30 in the depth direction.

In this embodiment, the extension width of the divided body 4 in the longitudinal direction is shorter than the extension width of the support part 31 in the same direction. In the divided body 4 and the support part 31 of this embodiment, the front end of the divided body 4 in the longitudinal direction coincides with the front end of the support part 31 in the same direction, and the rear end of the divided body 4 extends from the front surface of the main body block 30. adapted to be spaced apart. However, the extension width of the divided body 4 may be greater than or equal to the extension width of the support portion 31.

It is preferable that the corners of the divided body 4 are chamfered. In other words, it is preferable that the corner portion is a C-plane or an R-plane. In the divided body 4 of this embodiment, corners extending in the width direction at the upper front portion are chamfered. Other corners of the divided body 4 may be chamfered. However, the corners of the divided body 4 do not need to be chamfered.

<About the fastening part>
The fastening section 5 is configured to fasten the support section 31 and the divided body 4 together. The fastening portion 5 of this embodiment includes a pair of bolts 50, a nut plate 51, and a washer plate 52.

The pair of bolts 50 are spaced apart from each other in the width direction of the main body block 30, and are inserted through the divided body 4 and the support portion 31 from the upper side of the divided body 4 to the lower side of the support portion 31.

The support portion 31 and the divided body 4 are provided with a pair of insertion holes 31b and 4b, respectively, into which the bolt 50 is inserted. Each of the insertion holes 31b and 4b extends in the thickness direction of the support portion 31 and the divided body 4 (the height direction of the main body block 30). The insertion holes 31b and 4b are spaced apart from each other in the width direction of the support portion 31 and the divided body 4 (the width direction of the main body block 30) so that the electrode rod 2 is located between them.

It is preferable that the insertion holes 31b and 4b are provided at the center of the support portion 31 and the divided body 4 in the extending direction 2e of the electrode rod 2. In other words, when the electrode holder 1 is viewed in a plan view as shown in FIG. 4, the center position of the support portion 31 and the divided body 4 in the extending direction 2e of the electrode rod 2 is included in the insertion holes 31b and 4b. It is preferable. More specifically, when the electrode holder 1 is viewed from above, the center position of the support part 31 and the divided body 4 in the extending direction 2e of the electrode rod 2 is from the center of the insertion holes 31b, 4b to the insertion holes 31b, 4b. It is preferable to be located within 25% of the diameter of 4b, more preferably within 20%, and preferably within 15% of the diameter of 4b. For example, the length of the support part 31 in the extending direction 2e of the electrode rod 2 is 18 mm, the diameter of the insertion hole 31b is 5.5 mm, and the center of the insertion hole 31b is set at a position 10 mm from the front surface 30a of the main body block 30. When arranged, the center position of the support portion 31 will be located at a location approximately 18% of the diameter of the insertion holes 31b, 4b from the center of the insertion holes 31b, 4b.

The nut plate 51 is disposed below the support part 31, and the tip of a bolt 50 that has passed through the insertion holes 31b and 4b of the support part 31 and the divided body 4 is screwed into the nut plate 51. By screwing the tip of the bolt 50 into the nut plate 51, the support part 31 and the divided body 4 are tightened, and the electrode rod 2 is held between the support part 31 and the divided body 4. The nut plate 51 of this embodiment extends widely in the width direction of the main body block 30, and is configured to be commonly used by two bolts 50. However, one bolt 50 may be provided with one nut plate 51 or one nut.

The washer plate 52 is disposed above the divided body 4 and is interposed between the upper surface of the divided body 4 and the bolt head of the bolt 50. The washer plate 52 is a member that contacts the upper surface of the divided body 4 wider than the bolt head of the bolt 50. The washer plate 52 of this embodiment extends widely in the width direction of the main body block 30, and is configured to be commonly used by the two bolts 50. However, one bolt 50 may be provided with one washer plate 52 or washer.

In the electrode holder 1 of this embodiment, the electrode rod 2 is held between the divided body 4 and the support part 31, which are provided separably from the holder main body 3, so that the electrode can be spread over a wider area compared to the conventional structure. The rod 2 can be clamped. Thereby, the electrode rod 2 can be held more reliably, and the possibility of welding abnormalities occurring can be reduced. Furthermore, the life of the electrode holder 1 can be extended, and the downtime of the production line due to replacement of the electrode holder 1 can be reduced.

In addition, since insertion holes 31b and 4b into which the bolts 50 are inserted are provided in the central portions of the support portion 31 and the divided body 4 in the extending direction 2e of the electrode rod 2, The electrode rod 2 can be held more uniformly, and the possibility of welding abnormalities occurring can be more reliably reduced.

When the electrode holder 1 is viewed from above, the center position of the support portion 31 and the divided body 4 in the extending direction 2e of the electrode rod 2 is within the diameter of the insertion holes 31b, 4b from the center of the insertion holes 31b, 4b. Since they are located within 25% of each other, the electrode rod 2 can be held more uniformly in the extending direction 2e of the electrode rod 2.

Further, since the thickened portion 32 is provided between the front surface 30a of the main body block 30 and the lower surface of the support portion 31, the support portion 31 can withstand a larger load, thereby extending the life of the electrode holder 1. Can be made longer.

Furthermore, since the corners of the holder main body 3 and the divided bodies 4 are chamfered, it is possible to reduce the possibility that other members such as a cable may be caught on the holder main body 3 and the divided bodies 4. One corner of the holder main body 3 and the divided body 4 does not need to be chamfered. That is, it is preferable that at least one corner of the holder main body 3 and the divided body 4 is chamfered.

1 Electrode holder 2 Electrode rod 2e Extending direction 3 Holder main body 30 Main block 31 Support part 32 Thickened part 4 Divided body 5 Fastening part

Claims (5)

a holder body having a body block and a support portion for supporting the electrode rod from below;
a split body that is separable from the holder main body and is arranged above the support part so as to sandwich the electrode rod between the split body;
A fastening part that fastens the support part and the divided body ,
The electrode rod is a cylindrical member extending linearly,
The main body block is provided with a front surface and a back surface that are spaced apart from each other in the depth direction of the main body block, and the front surface is a peripheral surface of the main body block located on the tip side of the electrode rod,
An insertion hole extending in the depth direction of the main body block and opening at the front surface and the back surface is provided inside the main body block, and the electrode rod is inserted into the insertion hole,
The support portion is a flat protruding piece that protrudes from the front surface of the main body block so as to extend in the depth direction of the main body block,
A first recess is provided on the upper surface of the support part, and the first recess is disposed so as to be continuous with the insertion hole of the main body block, and extends in the depth direction of the main body block, and The first recess has a shape that matches the cross-sectional shape of the lower part of the electrode rod in the radial direction, and the first recess accommodates the lower part of the electrode rod in the radial direction,
A second recess is provided in the lower surface of the divided body, the second recess extends in the depth direction of the main body block, and the second recess has a cross-sectional shape of the upper part of the electrode rod in the radial direction. The electrode rod has a shape that matches the above, and a radially upper portion of the electrode rod is accommodated in the second recess,
The supporting part and the dividing body are arranged so that the supporting part and the dividing body extend in the thickness direction of the supporting part and the dividing body, and are connected to each other in the width direction of the supporting part and the dividing body so that the electrode rod is located between them. A pair of insertion holes are each provided spaced apart,
The fastening part is
a pair of bolts inserted into the split body and the support portion from above the split body to below the support portion through the insertion holes of the support portion and the split body;
The bolt is disposed below the support part so as to extend in the width direction of the main body block and is commonly used by the pair of bolts, and the bolt passes through the insertion hole of the support part and the divided body. A nut plate having a tip end screwed together, the tip end of the bolt being screwed into the nut plate, the support part and the divided body are tightened, and the support part and the divided body tighten. a nut plate on which the electrode rod is held;
The bolt is disposed above the divided body so as to extend in the width direction of the main body block and is commonly used by the pair of bolts, and is interposed between the upper surface of the divided body and the bolt head of the bolt. washer plate and
have,
electrode holder. Insertion holes into which bolts of the fastening part are inserted are provided in central parts of the support part and the divided body in the extending direction of the electrode rod, respectively.
The electrode holder according to claim 1. When the electrode holder is viewed from above, the center position of the support portion and the divided body in the extending direction of the electrode rod is located within 25% of the diameter of the insertion hole from the center of the insertion hole. has been,
The electrode holder according to claim 2. The holder body is
An increased thickness portion provided between the front surface of the main body block and the lower surface of the support portion
It further has
The electrode holder according to any one of claims 1 to 3. at least one corner of the holder main body and the divided body is chamfered;
The electrode holder according to any one of claims 1 to 4.

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