JPH0634067Y2 - Resistance welding equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to a resistance welding device, and more particularly, to a gun arm having a rectifier connected to the secondary coil side of a transformer and having one electrode attached thereto. The present invention relates to a resistance welding device in which a rectifier is directly engaged, a cooling passage is defined in the one gun arm, and a cooling medium is supplied to the passage to simultaneously cool an electrode and a rectifier.

[Background of the Invention] Conventionally, a transformer device in which a rectifier is connected to both ends of a secondary coil of a transformer is used to sandwich an object to be welded with a pair of electrodes, and a direct current is supplied between the electrodes to perform welding. A resistance welding device configured to perform the work is employed. That is,
In this type of resistance welding device, in practice, both ends of a secondary coil of a transformer are connected to a first conductive plate, and a rectifier and a second conductive plate are superposed on the first conductive plate. While being attached, the gun arm is connected to the second conductive plate via a flexible ounce steel plate.

By the way, in this case, particularly when a relatively large current is supplied, such as when welding a thick plate or a plated steel plate, the electrodes and the rectifier itself are likely to become considerably hot. Therefore, various cooling means for cooling the electrode and the rectifier are used in order to avoid the adverse effect of the high temperature.

However, this type of cooling means generally functions as a cooling means only for the electrodes or for the rectifier,
In practice, a large number of cooling means must be provided for the electrodes and the rectifier. For this reason, it has been pointed out that it is necessary to incorporate the respective cooling means into the resistance welding apparatus, and the resistance welding apparatus as a whole becomes large and heavy, and the manufacturing cost rises.

[Object of the Invention] The present invention has been made in order to overcome the above-mentioned inconvenience, and a rectifier connected to a secondary coil side of a transformer is directly engaged with a gun arm having one electrode attached. ,
The gun arm defines a cooling passage extending from the vicinity of the electrode to the vicinity of the rectifier, whereby the electrode and the rectifier can be cooled simultaneously by only supplying a cooling medium to the passage. It is an object of the present invention to provide a resistance welding apparatus which is compact and lightweight, and which can be economically manufactured with a simple structure.

[Means for Achieving the Object] In order to achieve the above object, the present invention provides a transformer, a rectifier connected to the secondary coil side of the transformer, and a welding electrode facing each other. And a pair of openable and closable gun arms attached to the transformer, one of the gun arms having a connecting portion connected to the transformer, and directly engaging the rectifier on both side surfaces of the connecting portion, The one gun arm defines a cooling passage integrally communicating with the vicinity of the rectifier and the vicinity of the electrode in the connecting portion, and supplies a cooling medium to the passage to supply the cooling medium to the electrode and the rectifier. And cooling.

[Embodiment] Next, a preferred embodiment of the resistance welding apparatus according to the present invention will be given and described in detail below with reference to the accompanying drawings.

1 and 2, reference numeral 10 indicates a resistance welding apparatus according to the present embodiment, and the resistance welding apparatus 10 is substantially fixed to the tip of the robot arm 12 by a bolt or the like (not shown) for supporting. It has a bracket 14. The bracket 14, in the drawing, the upper side thereof is bent in a U-shaped cross section and extends parallel to the vertical downward direction, and a pair of cylindrical portions 16a and 16b are formed at both lower end portions thereof, and the cylinder is formed. The body portion 18 is supported in a floating state via the portions 16a and 16b.

That is, the main body portion 18 includes a pair of holding plate bodies 20a and 20b fixed to both ends of a cylinder described later,
A mounting portion 22 is formed by bending the upper portion of 20a by approximately 90 °. On the other hand, the holding plate body 20b has a plate-like shape, and the holding plate body 20a and the holding plate body 20b described above have a relatively long guide bar 24.
Bridge a and 24b. In this case, the guide bars 24a, 24b
Is fitted to the cylindrical portions 16a, 16b of the bracket 14, and between the cylindrical portions 16a, 16b and the holding plate bodies 20a, 20b and the coil springs 26a, 26a on the respective guide bars 24a, 24b.
Exterior of 26b and 26b.

Next, the fixed gun arm 30 is attached to the mounting portion 22 of the holding plate body 20a via the insulating plate body 28. The fixed gun arm 30
In the figure, after extending horizontally, bend vertically downward,
The first electrode 32 is attached to one end of the fixed gun arm 30, and the plate-shaped connecting portion 34 is formed on the other end of the fixed gun arm 30 (fourth).
See figure). Further, a cooling passage 36 is formed in the fixed gun arm 30 so as to extend to the vicinity of the first electrode 32, and both ends thereof are opened outward from the connecting portion 34. Nipple 38 at the open end of each of the 36
Install a and 38b. Pipe lines 39a and 39b extending from a cooling medium supply source (not shown) are connected to the nipples 38a and 38b.

As shown in FIGS. 4 and 5, the transformer 42 is fixed to the connecting portion 34 of the fixed gun arm 30 via the rectifiers 40a and 40b. That is, one end of the electrode plates 44a, 44b as conductors is attached to the winding start end and the winding end end of the secondary coil (not shown) of the transformer 42, and the other end of the electrode plates 44a, 44b. Extend parallel to each other and are spaced apart by a predetermined distance. On the other hand, a center tap terminal plate 46 is led out from an intermediate portion of the secondary coil, and the center tap terminal plate 46 is bent and extends in a direction away from the electrode plates 44a and 44b. Further, a cooling passage 47 is defined inside the transformer 42,
The passage 47 opens outward from the ends of the electrode plates 44a, 44b, and nipples 48a, 48b are attached to the respective open ends,
Cooling medium supply source (not shown) for the nipples 48a, 48b
The conduits 50a, 50b extending from the are connected (see FIG. 4).

Therefore, the rectifier is installed on both sides of the connecting portion 34 of the fixed gun arm 30.
Directly abut one end side of the 40a, 40b, the rectifier 40a, 40b
The electrode plates 44a and 44b extending from the transformer 42 are engaged with the other end side of the. At that time, the insulating plates 52a and 52b are arranged between the connecting portion 34 and the electrode plates 44a and 44b, and the insulating plates 52a and 52b are provided.
Openings 54a, 54b for inserting the rectifiers 40a, 40b.
To form. Further, the disc springs are attached to the outer surfaces of the electrode plates 44a and 44b.
Presser plates 58a and 58b are arranged via 56a and 56b, and
A plurality of bolts 60 are integrally inserted into the 58a, 58b, the electrode plates 44a, 44b, the insulating plate bodies 52a, 52b and the connecting portion 34, and the nuts 62 are screwed into the respective ends. This allows the fixed gun arm
A transformer 42 is attached to 30 through rectifiers 40a and 40b.

It should be noted that the electrode plates 44a and 44b are integrally provided with a reinforcing member 63 using a resin material that is an electrical insulator, if necessary. Therefore, the electrode plates 44a and 44b and the reinforcing member 63 are used to transform the transformer.
42 can be firmly held.

On the other hand, a cylinder 64 is provided in the main body portion 18 between the holding plate bodies 20a and 20b, and a movable gun arm 68 is fixed to a piston rod 66 extending from the cylinder 64 to the holding plate body 20a side. A second electrode 70 is attached to the end of the movable gun arm 68 so as to face the first electrode 32, and a cooling passage 72 is formed in the movable gun arm 68 to open outside the passage 72. The nipples 74a and 74b are attached to both open ends of the nipples 74a and 74b, and pipes (not shown) for introducing and discharging the cooling medium are connected to the nipples 74a and 74b. In addition, the movable gun arm
One end of a power supply member 76 is attached to 68, and both ends of a flexible ounce copper plate 78 are connected to the other end of the power supply member 76 and the center tap terminal plate 46 of the transformer 42. An insulating member 80 having a cylindrical shape is arranged on the power supply member 76, and the guide bar 24a is fitted to the insulating member 80.

The resistance welding apparatus according to the present embodiment is basically constructed as described above, and its operation and effect will be described next.

First, the workpieces of the two workpieces W ₁ and W ₂ are overlapped with each other, and the resistance welding device 10 is moved to a predetermined position of the workpieces W ₁ and W ₂ via a robot arm 12 under the driving action of a robot device (not shown). Transfer to the welded part. In that case, the first electrode in advance
When the first electrode 32 and the second electrode 70 reach a predetermined welded portion, the cylinder 64 is separated from the second electrode 70 by separating the second electrode 70 from each other according to the thickness of the works W ₁ and W _2. To drive. Therefore, the piston rod 66 is displaced toward the work W ₂ side, and the second electrode 70 is engaged with the work W ₂ via the movable gun arm 68 fixed to the piston rod 66.

When the cylinder 64 is further driven in this state, the second electrode
Since 70 is in contact with the work W ₂ , the displacement operation of the piston rod 66 is prevented. Therefore, the main body 18 which is floatingly supported with respect to the bracket 14 moves in the direction away from the work W ₂ against the elastic force of the one coil spring 26a, 26a (two points in FIG. 2). See the chain line). A fixed gun arm 30 is fixed to the main body portion 18 via a mounting portion 22 of a holding plate body 20a.
30 and 30 are integrally displaced in the direction away from the work W _2, and the first electrode 32 attached to one end of the fixed gun arm 30.
To engage with the work W ₁ .

After the works W ₁ and W ₂ are sandwiched by the first electrode 32 and the second electrode 70 with a predetermined pressing force, an AC power supply (not shown) is driven to output a high frequency AC current. This high frequency AC current is connected to the secondary coil (not shown) of the transformer 42.
Single-phase full-wave rectification is transmitted to the electrodes 44a and 44b and rectifiers 40a and 40b connected to the electrode plates 44a and 44b. Therefore, the rectified current flows from the connecting portion 34 to the fixed gun arm.
Welding between the first electrode 32 and the second electrode 70 that reaches the first electrode 32 via 30 and is electrically connected to the center tap terminal plate 46 via the feeding member 76 and the movable gun arm 68. Electric current is supplied. As a result, the welded parts of the works W ₁ and W ₂ are melted and the welded parts are fitted.
At that time, for example, cooling water is supplied to the respective passages 36, 72 from a cooling medium supply source (not shown) connected to the respective nipples 38a, 74a. On the other hand, also in the transformer 42, cooling water is similarly supplied from the nipple 48a to the passage 47.

After the desired welded portions of the works W ₁ and W ₂ are joined in this way, the cylinder 64 is driven to displace the piston rod 66 in the opposite direction. Therefore, the first electrode 32 and the second electrode 70 are separated from the works W ₁ and W ₂ , and the electrodes 32 and 70 are moved to the next welding target portion under the action of the robot arm 12.

In this case, according to the present embodiment, the connection part 34 is formed at the end of the fixed gun arm 30, and the rectifiers 40a, 4 are connected to the connection part 34.
0b is directly engaged, and the first electrode 32 is attached to the connecting portion 34.
A passage 36 is formed that extends to the vicinity of. Therefore,
If, for example, cooling water is supplied to the passage 36 via the pipe 39a as a cooling medium, the cooling water cools the first electrode 32 and the rectifiers 40a and 40b at the same time, and then flows out from the pipe 39b to the outside. Leading to being derived. Therefore, as compared with the conventional one that uses a dedicated cooling means for the electrode and the rectifier, it is possible to obtain the effect that the resistance welding device 10 as a whole can be easily reduced in size and weight. Moreover, in this embodiment, as the cooling means, the passage 36 for substantially flowing the cooling water is provided.
Is provided, and there is an advantage that the configuration is simple and extremely economical.

On the other hand, together with the connecting portion 34 of the fixed gun arm 30, the rectifiers 40a, 4a
A passage 47 is defined in the electrode plates 44a and 44b that sandwich 0b. Therefore, if cooling water is supplied from the pipe line 50a to the passage 47, the inside of the transformer 42 and the rectifiers 40a and 40b are cooled, and the rectifiers 40a and 40b are more likely to be adversely affected by heat. It can be blocked more reliably. In addition,
The cooling water in the passage 47 is discharged to the outside from the pipe line 50b after performing the cooling work.

[Advantage of the Invention] As described above, according to the present invention, the rectifier is directly engaged with one of the gun arms to which the electrodes are attached, and the one gun arm is used for cooling from the vicinity of the electrodes to the vicinity of the rectifier. It defines the passage. Therefore, if cooling water is supplied to the passage as a cooling medium, the electrode and the rectifier can be cooled at the same time. Therefore, it is possible to reduce the size and weight of the entire resistance welding apparatus and to obtain an effect of being extremely economical.

Although the present invention has been described with reference to the preferred embodiment, the present invention is not limited to this embodiment.
It goes without saying that various improvements and design changes can be made without departing from the scope of the present invention.

[Brief description of drawings]

FIG. 1 is a perspective view of a resistance welding apparatus according to the present invention, FIG. 2 is a partial sectional side view of the resistance welding apparatus, FIG. 3 is a sectional view taken along the line III-III of FIG. 2, and FIG. FIG. 5 is an exploded perspective view of a fixed gun arm constituting the resistance welding device, a transformer and a rectifier attached to the fixed gun arm, and FIG. 5 is an assembly perspective explanatory view of a main part shown in FIG. 10 ...... Resistance welding device, 14 ...... Bracket 18 ...... Main body part, 30 ...... Fixed gun arm 32 ...... Electrode, 34 ...... Connection part 36 ...... Passage, 40a, 40b ...... Rectifier 42 ...... Transformer, 44a , 44b ...... Electrode plate 47 ...... Passage, 64 ...... Cylinder 68 ...... Movable gun arm, 70 ...... Electrode

Claims (2)

[Scope of utility model registration request] 1. A transformer, a rectifier connected to the secondary coil side of the transformer, and a pair of openable and closable gun arms for attaching respective welding electrodes facing each other. The gun arm has a connecting portion connected to the transformer, and the rectifier is directly engaged with both side surfaces of the connecting portion, and the one gun arm is provided in the connecting portion and in the vicinity of the rectifier. A resistance welding apparatus, characterized by defining a cooling passage integrally communicating with the vicinity of the electrode, and supplying a cooling medium to the passage to cool the electrode and the rectifier. 2. The device according to claim 1, wherein the conductor drawn from the secondary coil of the transformer is directly engaged with the rectifier, and the conductor cools the inside of the transformer and the rectifier. A resistance welding device, characterized in that it defines a cooling passage for it.