Disclosed are an apparatus for supplying a welding tip of a welder and an apparatus for replacing the same, which can automatically supply or replace a welding tip of a welding robot that is used in a vehicle body production factory, etc. The apparatus for replacing a welding tip of a welder of the present invention comprises: a fixed bracket secured to a support; an actuator coupled to the fixed bracket; a first moving member that is moved by the actuator; a second moving member coupled to the first moving member and hingedly coupled to the fixed bracket; a third moving member hingedly coupled to the second moving member; a first welding tip removal member coupled to the third moving member to separate a welding tip coupled to a shank; a fourth moving member that is moved by the actuator and is disposed opposite to the first moving member; a fifth moving member coupled to the fourth moving member and hingedly coupled to the fixed bracket; a sixth moving member coupled to the fifth moving member; and a second welding tip removal member that is coupled to the sixth moving member and moves in relation to the first welding tip removal member.

A tip changer for a spot welding machine includes a first rotation body that has an opening capable of accommodating a welding tip and is capable of rotating around the opening; a second rotation body that is disposed concentrically with the first rotation body and is rotated relative to the first rotation body; and a plurality of nail pieces that are disposed at equal angular intervals along an imaginary circle of the rotation bodies, are swingably connected to the first rotation body by a first connection mechanism, are swingably connected to the second rotation body by a second connection mechanism on a more radially inner side of the second rotation body than the first connection mechanism, and include contact portions on a more radially inner side of the second rotation body than a second connection mechanism.

Disclosed is a tip separation apparatus of a welding gun, which mechanically separates consumable tips installed at the end of the welding gun in a robot welding machine. The tip separation apparatus includes tip seating stands coupled to a main plate configured to maintain level, and configured such that each of the tip seating stands has a first insertion hole, into which a corresponding one of tips coupled to fingers of the welding gun is inserted, tip separation units rotatably disposed on bottom surfaces of the tip seating stands and configured to press outer circumferential surfaces of the tips inserted into the first insertion holes of the tip seating stands so as to clamp the tips and to rotate the clamped tips so as to separate the tips from the welding gun, and a housing configured to rotatably receive the tip separation units in a state of being elastically supported.

A removal device of a welding electrode tip includes a first insertion piece and a second insertion piece that are inserted into a space formed between an end surface of a large diameter portion of a shank and an end surface of the welding electrode tip, each of the first insertion piece and the second insertion piece having a wedge shape having a thickness that increases from a front end to a back portion in an insertion direction, wherein the first insertion piece and the second insertion piece have a thickness by overlap of the first insertion piece and the second insertion piece, and the thickness changes from a thickness smaller than a length of the space to a thickness larger than the length of the space according to an overlap amount in the space.

When a drive unit 5 drives to rotate a first rotator 6 and a second rotator 7 relative to one another in a first relative positional relationship R1 toward one side, graspers 8 turn toward the one side to cause respective pawl portions 8c to advance into a detachment operation space S1 such that the pawl portions 8c can contact an electrode 10 set in the detachment operation space S1, and when the drive unit drives to rotate the first rotator 6 and the second rotator 7 relative to one another in a second relative positional relationship R2 toward another side, the graspers 8 turn toward the other side to cause the respective pawl portions 8c to advance into the detachment operation space S1 such that the pawl portions 8c can contact an electrode 10 set in the detachment operation space S1.

A weld tip remover includes a cylindrical tubular case with an inclined guide groove formed therein along a circumference of a tube wall, a rotating plate axially rotatably mounted inside the cylindrical tubular case by a guide bar provided on an outer circumferential surface thereof and inserted into the inclined guide groove, and defining a tip receiving hole formed through an inner circumferential surface thereof, and a hinge bar having one end hinged to a translational actuator and a body portion hinged to one side of the rotating plate, and another end at which a driving jaw exposed to one side of an inner circumferential surface of the rotating plate is provided.

The invention relates to a spot welding cap changer (1) with a cap puller (2) and two cap magazines (3, 3A), the cap puller (2) having a gripper (20) with spring-loaded, pivotable jaws (21, 22), which in response to a turning and axial pulling-off movement detaches a spot welding cap (K) of a pincer spot welding head introduced into it from a shaft of the pincer welding head in such a way that it is clamped to prevent it twisting, and the cap magazines (3, 3A) holding spot welding caps respectively in a round cap carrier (31) such that they are circularly arranged in a directed and oriented manner and are respectively transported individually one after the other into an access position against a stop (32) by an advancing force (P).

A first electrode coolant path is configured to cool a first welding electrode by liquid coolant flowing from a supply path through the first electrode coolant path to a return path. A second electrode coolant path is configured to cool a second welding electrode by liquid coolant flowing from the supply path through the second electrode coolant path to the return path. Three or more valves are configured to stop or reduce liquid coolant flow through the first or second electrode coolant path and configured to stop or reduce liquid coolant backflow from the return path when the first or second welding electrode is at least partially detached. At least one valve is coupled in the first or second electrode coolant path. A drawback apparatus generates a suction force to draw liquid coolant away from a gap formed when the first or second welding electrode is at least partially detached.

A system for removing an electrode cap from an electrode shaft. The system includes at least one electrode cap removal device which is mounted to rotate about a tool axis of rotation. The at least one electrode cap removal device has a clamping device for fixing the electrode cap to be removed. The clamping device is a combination of a straight-toothed clamping device and a helical-toothed clamping device.

In the present disclosure, a housing (4) has a housing passageway (R1) housing a plurality of electrodes (10) linearly therewithin. An electrode withdrawal opening (R2) communicating with the housing passageway (R1) is formed on one end of the housing (4). A pressing unit (5) presses toward one end of the housing passageway (R1) the plurality of electrodes (10) arranged side by side and housed in the housing passageway (R1). A lever member (6) is swung to switch between a state where withdrawal of the electrode (10) from the electrode withdrawal opening (R2) is restrained and a state where the electrode withdrawal opening (R2) is exposed. A regulating coil spring (7) urges and swings the lever member (6) to one side.