CN211539901U - Electrode cap replacing machine - Google Patents

Abstract

The utility model relates to the technical field of welding, specifically electrode cap replacement machine, including casing, tear the cap head open, drive arrangement and attenuator, tear the cap head open the activity and arrange in the casing, tear the cap head open and include tear the cap gear open, jack catch lid and a plurality of jack catch, tear the cap gear open and can rotate relative to the jack catch lid, the jack catch is evenly arranged in the inner circle of tearing the cap gear open, the rear end of jack catch is articulated with tear the cap gear inner wall open, the front end of jack catch is equipped with vertical centre gripping sword, the jack catch still is articulated with the jack catch lid, the attenuator is installed on the casing and can carry out damping location to the jack catch lid, drive arrangement can drive tear the cap gear open; the utility model discloses electrode cap changes machine through the centre gripping sword that sets up the twolip structure to can realize just, anti-cap of tearing open, simple structure controls the convenience.

Description

Electrode cap replacing machine

Technical Field

The utility model relates to the field of welding technique, specifically electrode cap changes machine.

Background

At present, welding gun and electrode rod generally adopt threaded connection, and electrode cap and electrode rod generally adopt conical surface tight fit, and this just requires when dismantling the electrode cap, in order to prevent to pull down or become flexible the electrode rod together, and the best action of tearing open the cap is based on "knob" tears the cap principle open, goes along the direction that the electrode rod screw is turned round to dismantle the electrode cap, goes along the direction that the electrode rod screw is screwed and removes the knob and dismantle the electrode cap promptly, so, to the electrode cap on upper and lower electrode rod, its dismantlement direction is opposite. The current knob formula electrode cap is changed machine can only dismantle the electrode cap along a direction knob basically, so when dismantling the electrode cap on upper and lower electrode pole, the dismantlement process that adopts current electrode cap to change machine is comparatively loaded down with trivial details and time-consuming, and some electrode cap change machines can realize positive and negative two-way cap of tearing open, but the structure is more complicated, controls inconveniently.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect that exists among the prior art, the utility model discloses a task is to provide electrode cap change machine, and this electrode cap change machine not only can realize just, the two-way electrode cap of dismantling of anti-, simple structure controls the convenience moreover.

The utility model discloses the task is realized through following technical scheme:

the electrode cap replacing machine comprises a shell, a cap removing head, a driving device and a damper, wherein a containing cavity is arranged on the shell, the cap removing head is movably arranged in the containing cavity and comprises a cap removing gear, a jaw cover and a plurality of jaws, the jaw cover comprises an upper cover and a lower cover, the upper cover and the lower cover are respectively positioned on two sides of the cap removing gear and are fixedly connected together through a connecting pin, the cap removing gear is positioned between the upper cover and the lower cover and can rotate relative to the jaw cover, the cap removing gear is of an annular structure, the jaws are circumferentially arranged in an inner ring of the cap removing gear, the rear end of each jaw is respectively hinged with the inner wall of the cap removing gear around a first axial direction, a longitudinal clamping blade protruding forwards is arranged in the middle of the front end of each jaw, each clamping blade surrounds a combined disassembling channel, a forward clamping part and a reverse clamping part are respectively arranged on two sides of each clamping blade, each jaw is also hinged with the jaw cover through a positioning pin, each connecting pin, locating pin and first axial all are on a parallel with the axis of tearing open the cap gear, and casing and jack catch cover and are equipped with the through-hole that the passageway was dismantled in order to supply the electrode cap to pass through in the intercommunication, the attenuator is installed on the casing and can carry out the damping location to the jack catch lid, drive arrangement can drive tear the cap gear revolve open.

Preferably, the damper comprises a mounting head, an elastic part and a damping head, the mounting head is fixedly connected with the shell, the damping head is arranged along the radial direction of the jaw cover, one end of the damping head is connected with the mounting head through the elastic part, and the other end of the damping head abuts against the side face of the jaw cover under the action of the elastic part.

Preferably, drive arrangement includes revolving cylinder or motor and power gear, power gear with tear the cap gear and carry out the transmission and be connected, revolving cylinder or motor can drive power gear and rotate, and then drive through power gear tear cap gear rotate.

Preferably, the driving device further comprises a speed change gear, the power gear is in transmission connection with the cap detaching gear through the speed change gear, and the power gear and the speed change gear are both arranged in the accommodating cavity.

Preferably, the electrode cap replacing machine is further provided with a monitoring signal switch for monitoring the rotation position of the cap detaching gear, the cap detaching head or the driving device, and the monitoring signal switch can transmit signals to a control device of the welding machine.

Preferably, the rear end of the claw is hinged with the inner wall of the cap detaching gear in a manner that: the rear end of the clamping jaw is provided with a convex arc-shaped bulge, the inner wall of the cap detaching gear is provided with a corresponding arc-shaped groove, and the arc-shaped bulge is embedded into the arc-shaped groove and can rotate relatively.

Preferably, still be equipped with the holding ring on the casing, holding ring and casing fixed connection, the holding ring cover is established thereby jack catch lid periphery can be right tear the cap head open and carry out horizontal spacing, and the lower terminal surface of holding ring supports and leans on it can be right to tear the upper surface of cap gear open it carries out vertical spacing to tear the cap head open.

Preferably, the lower edge of the upper cover abuts against the upper surface of the cap detaching gear, and the upper edge of the lower cover abuts against the lower surface of the cap detaching gear, so that the jaw cover and the cap detaching gear can be limited to perform longitudinal relative displacement; the quantity of connecting pin is at least two, and each connecting pin is followed the circumference evenly distributed of jack catch lid, and the side of each connecting pin all with tear the inner wall of cap gear mutually paste to can restrict the jack catch lid and tear the cap gear open and carry out lateral relative movement.

Preferably, the housing is further provided with an oil mist spraying system and an oil mist spray head pipeline, the inlet end of the oil mist spray head pipeline is connected with the oil mist spraying system, and the outlet end of the oil mist spray head pipeline is communicated with the accommodating cavity.

Preferably, the electrode cap replacing machine further comprises an electrode cap detector and/or at least one electrode cap feeder, the electrode cap detector and the electrode cap feeder are both fixedly mounted on the shell, and the electrode cap feeder and the cap removing head are transversely arranged in parallel.

When the cap is forwardly (anticlockwise) disassembled, the clamping blades of the clamping jaws deflect to the same side to enable the diameter of the common envelope of the forward clamping parts of the clamping jaws to be larger than the outer diameter of the electrode cap, and the diameter is used as an initial state when the cap is forwardly disassembled; then the electrode cap on the electrode rod passes through the dismounting channel, then the driving device drives the dismounting gear to rotate anticlockwise, at the moment, the clamping jaw covers are kept still under the damping positioning action of the damper, so that each clamping jaw is driven by the dismounting gear to deflect anticlockwise around the corresponding positioning pin, the diameter of the common envelope of the forward clamping parts of each clamping jaw is gradually reduced until the clamping jaw tightly holds the electrode cap in the dismounting channel, at the moment, each clamping jaw is clamped by the electrode cap and cannot continuously deflect anticlockwise around the positioning pin, the dismounting gear can drive the clamping jaw covers to overcome the damping force of the damper to rotate anticlockwise along with the continuous anticlockwise rotation of the dismounting gear, namely, the whole dismounting head drives the electrode cap to rotate anticlockwise, when the electrode cap rotates to the set angle of the monitoring signal switch, the welding machine controls the electrode rod to be pulled out, and simultaneously the dismounting head continuously drives the electrode cap to rotate, so that the electrode cap is separated from the electrode rod, and the electrode cap is disassembled.

When the cap is reversely (clockwise) disassembled, the clamping blades of the clamping jaws deflect to the other side to enable the diameter of the reverse clamping parts of the clamping jaws, which are enveloped together, to be larger than the outer diameter of the electrode cap, and the diameter is used as an initial state when the cap is reversely disassembled, the process of reversely disassembling the cap is the same as the process principle of forwardly disassembling the cap, and only the driving device drives the disassembling gear to rotate clockwise, so that the repeated description is omitted.

Compared with the prior art, the utility model discloses electrode cap changes machine has following advantage: the middle of the front end of the clamping jaw is provided with a longitudinal clamping blade, and the clamping blade is of a double-blade structure, namely, a forward clamping part and a reverse clamping part are respectively arranged on two sides of the clamping blade, so that forward and reverse cap disassembly can be realized, the structure is simple, and the operation and the control are convenient; secondly, the cap dismounting angle can be simply and accurately controlled by adopting the driving of a rotary cylinder; the radial damper is adopted, so that the structure is compact and the maintenance is convenient; the cap dismounting head adopts an integral design, so that the cap dismounting head can be easily replaced, parts such as clamping jaws and the like can be easily replaced, the electrode caps with different sizes can be quickly switched, and the maintenance is convenient; a speed change gear is additionally arranged, and the power gear is transmitted to the nut removing gear through the speed change gear, so that the torque of the power device can be amplified and transmitted to the nut removing gear; setting an oil mist spraying system and an oil mist spray head pipeline on the shell, regularly spraying oil mist into the accommodating cavity of the shell, lubricating the motion of each matching surface in the cap removing head and the gear transmission system, and blowing out welding gun cooling water or welding slag which is mistakenly entered or remained in the accommodating cavity; and the electrode cap detector, the upper electrode cap feeder and the lower electrode cap feeder are integrated on the electrode cap replacing machine, so that the electrode cap replacing machine has the functions of cap mounting, cap dismounting and detection, the integration degree is high, and the structural layout is reasonable.

The conception, the specific structure and the effects of the present invention will be further described with reference to the accompanying drawings, so as to fully understand the objects, the features and the effects of the present invention.

Drawings

Fig. 1 is one of the schematic structural views of the electrode cap changing machine in embodiment 1;

FIG. 2 is a second schematic view showing the structure of the electrode cap changing machine in example 1;

FIG. 3 is a schematic view showing the electrode cap changer of embodiment 1 without the upper cover plate;

FIG. 4 is a schematic structural view of a cap removing head in the electrode cap changing machine of the present invention;

FIG. 5 is an exploded view of FIG. 4;

FIG. 6 is a schematic view of the structure of the jaws of FIG. 4;

fig. 7 is a schematic structural view of the electrode cap changing machine in embodiment 2.

Wherein: the electrode cap detector comprises a shell 1, a containing cavity 11, a positioning ring 12, an upper cover plate 13, a lower base plate 14, a cap removing head 2, a cap removing gear 21, an arc-shaped groove 211, a claw cover 22, an upper cover 221, a lower cover 222, claws 23, a clamping blade 231, a forward clamping part 2311, a reverse clamping part 2312, an arc-shaped protrusion 232, a connecting pin 24, a positioning pin 25, a removing channel 26, a driving device 3, a rotating cylinder 31, a power gear 32, a speed change gear 33, a damper 4, a mounting head 41, a compression spring 42, a damping head 43, an electrode cap detector 5, an upper electrode cap feeder 61, a lower electrode cap feeder 62, an oil mist spray head pipeline 7 and an electrode cap 8.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the description of the specific embodiments is intended to be illustrative only and is not intended to be limiting.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or be indirectly connected to the other element through intervening elements. Also, the terms "upper", "lower", "left", "right", "front", "rear", "lateral", "longitudinal", and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Example 1:

as shown in fig. 1-6, the electrode cap changing machine includes a housing 1, a cap removing head 2, a driving device 3 and a damper 4, the housing 1 is provided with a receiving cavity 11, the cap removing head 2 is movably disposed in the receiving cavity 11, the cap removing head 2 includes a cap removing gear 21, a jaw cover 22 and four jaws 23, the jaw cover 22 includes an upper cover 221 and a lower cover 222, the upper cover 221 and the lower cover 222 are respectively disposed at two sides of the cap removing gear 21 and fixedly connected together by four connecting pins 24, the cap removing gear 21 is disposed between the upper cover 221 and the lower cover 222 and can rotate relative to the jaw cover 22, the cap removing gear 21 is a hollow annular structure, the four jaws 23 are uniformly disposed in an inner ring of the cap removing gear 21 along a circumferential direction, rear ends of the jaws 23 are respectively hinged to an inner wall of the cap removing gear 21 along a first axial direction, a longitudinal clamping blade 231 projecting forward is disposed in the middle of a front end of the jaws 23, each clamping blade 231 encloses a removing passage 26, the both sides of each centre gripping sword 231 are equipped with forward clamping part 2311 and reverse clamping part 2312 respectively, each jack catch 23 still hinges with jack catch lid 22 through a locating pin 25 respectively, each connecting pin 24, locating pin 25 and the first axial all are on a parallel with the axis of tearing cap gear 21 open, be equipped with the through-hole that the passageway 26 was dismantled in order to supply the electrode cap to pass through in the intercommunication on casing 1 and the jack catch lid 22, attenuator 4 installs on casing 1 and can carry out the damping location to jack catch lid 22, drive arrangement 3 can drive and tear cap gear 21 open and rotate.

The shell 1 is of an opposite-combination structure and comprises an upper cover plate 13 and a lower base plate 14 which are detachably connected together, and the accommodating cavity 11 is formed by enclosing an accommodating groove formed in the lower base plate 14 and the upper cover plate 13.

The damper 4 is a radial damper, and includes a mounting head 41, a compression spring 42 and a damping head 43, the mounting head 41 is fixedly mounted on the upper cover plate 13 of the housing 1, the damping head 43 is arranged along the radial direction of the claw cover 22, one end of the damping head 43 is connected with the mounting head 41 through the compression spring 42, and the other end is abutted against the side surface of the claw cover 22 under the action of the compression spring 42, so that friction damping can be generated on the claw cover 22.

The driving device 3 comprises a rotary cylinder 31, a power gear 32 and a speed change gear 33 (idle gear), the power gear 32 is in transmission connection with the cap detaching gear 21 through the speed change gear 33, the rotary cylinder 31 can drive the power gear 32 to rotate, the cap detaching gear 21 is driven to rotate after the torque is amplified through the speed change gear 33, and the power gear 32, the speed change gear 33 and the cap detaching gear 21 are all horizontally arranged in the accommodating cavity 11.

The rotary cylinder 31 is a cylinder with a magnetic ring, and a magnet signal switch (not shown in the drawing) is arranged on the rotary cylinder 31, so that the rotary position of the rotary cylinder 31 can be detected through the magnet switch, and signals can be transmitted to a control device of the welding machine.

The hinging mode of the rear end of the claw 23 and the inner wall of the cap-removing gear 21 is as follows: the rear end of the claw 23 is provided with a convex arc-shaped protrusion 232, the inner wall of the cap-removing gear 21 is provided with a corresponding arc-shaped groove 211, and the arc-shaped protrusion 232 is embedded into the arc-shaped groove 211 and can rotate relatively.

Still be equipped with holding ring 12 on the casing 1, holding ring 12 upper surface and casing 1 fixed connection, thereby holding ring 12 cover is established and to be able to carry out horizontal spacing to tearing the cap head 2 open in jack catch lid 22 periphery, thereby the lower terminal surface of holding ring 12 supports and leans on and to tear the upper surface of cap gear 21 open and to carry out vertical spacing to tearing the cap head 2 open. The side of the positioning ring 12 is provided with a through hole for the damping head 43 to pass through.

The lower edge of the upper cover 221 abuts against the upper surface of the cap detaching gear 21, and the upper edge of the lower cover 222 abuts against the lower surface of the cap detaching gear 21, so that the jaw cover 22 and the cap detaching gear 21 can be limited from longitudinal relative displacement; the four connecting pins 24 are uniformly distributed along the circumferential direction of the jaw cover 22, and the side surface of each connecting pin 24 is attached to the inner wall of the cap removing gear 21, so that the jaw cover 22 and the cap removing gear 21 can be limited to move transversely relative to each other.

The housing 1 is further provided with an oil mist spraying system (not shown in the drawing) and an oil mist spray head pipeline 7, wherein the inlet end of the oil mist spray head pipeline 7 is connected with the oil mist spraying system, and the outlet end of the oil mist spray head pipeline is communicated with the accommodating cavity 11.

When the cap is forwardly (anticlockwise) disassembled, the clamping blades 231 of the clamping jaws are deflected to the same side so that the diameter enveloped by the forward clamping parts 2311 of the clamping jaws is larger than the outer diameter of the electrode cap, and the initial state is taken as the initial state when the cap is forwardly disassembled; then the electrode cap 8 on the electrode rod passes through the detaching channel 26, then the driving device 3 drives the detaching gear 21 to rotate anticlockwise, at the moment, the jaw cover 22 is kept still under the damping positioning action of the damper 4, so that each jaw is driven by the detaching gear 21 to deflect anticlockwise around the corresponding positioning pin 25, the diameter enveloped by the forward clamping part 2311 of each jaw is gradually reduced until the electrode cap 8 in the detaching channel 26 is tightly held, at the moment, each jaw is clamped by the electrode cap 8 and cannot continuously deflect anticlockwise around the positioning pin 25, as the detaching gear 21 continues to rotate anticlockwise, the detaching gear 21 drives the jaw cover 22 to overcome the damping force of the damper 4 through the positioning pin 25 and follow the anticlockwise rotation, namely, the whole detaching head 2 drives the electrode cap 8 to rotate anticlockwise, when the electrode cap rotates to the set angle of the monitoring signal switch, the welding machine controls the electrode rod to be pulled out, meanwhile, the cap detaching head 2 continues to drive the electrode cap 8 to rotate, so that the electrode cap 8 is separated from the electrode rod, and the detachment of the electrode cap 8 is completed.

When the cap is reversely (clockwise) disassembled, the clamping blade 231 of each clamping jaw is deflected to the other side to enable the diameter enveloped by the reverse clamping portion 2312 of each clamping jaw to be larger than the outer diameter of the electrode cap 8, as an initial state when the cap is reversely disassembled, the process of reversely disassembling the cap is the same as the process principle of forwardly disassembling the cap, and only the driving device 3 drives the cap disassembling gear 21 to rotate clockwise, which is not described again.

Example 2:

on the basis of the technical scheme of the embodiment 1, the following improvements are made:

as shown in fig. 7, an electrode cap detector 5, an upper electrode cap feeder 61 and a lower electrode cap feeder 62 are added to a casing 1 of the electrode cap changing machine, wherein the upper electrode cap feeder 61 and the lower electrode cap feeder 62 are respectively installed at left and right sides of the casing 1 and are laterally juxtaposed to a cap removing head 2. The upper electrode cap supplier 61, the lower electrode cap supplier 62 and the electrode cap detector 5 may adopt the technology which is previously applied and disclosed by the applicant, and may also adopt the prior art in the field, and the detailed structure thereof is not described herein.

Compared with the prior art, the utility model discloses electrode cap changes machine has following advantage: firstly, the middle of the front end of the claw 23 is provided with a longitudinal clamping blade 231, and the clamping blade 231 is of a double-blade structure, namely, two sides of the clamping blade 231 are respectively provided with a forward clamping part 2311 and a reverse clamping part 2312, so that the cap can be dismounted forwardly and reversely, the structure is simple, and the operation and the control are convenient; secondly, the cap dismounting angle can be simply and accurately controlled by adopting the driving of the rotary cylinder 31; the radial damper 4 is adopted, so that the structure is compact and the maintenance is convenient; the cap detaching head 2 adopts an integral design, so that the cap detaching head 2 can be easily replaced, parts such as the clamping jaws 23 and the like can be easily replaced, the electrode caps 8 with different sizes can be quickly switched, and the maintenance is also convenient; a change gear 33 is additionally arranged, and the power gear 32 is transmitted to the nut removing gear 21 through the change gear 33, so that the torque of the power device can be amplified and transmitted to the nut removing gear 21; an oil mist spraying system and an oil mist spray head pipeline 7 are arranged on the shell 1, oil mist can be sprayed into the accommodating cavity 11 of the shell 1 periodically, the cap removing head 2 and the movement of each matching surface in the gear transmission system can be lubricated, and meanwhile, welding gun cooling water or welding slag which is mistakenly entered or remained in the accommodating cavity 11 can be blown out; and the electrode cap detector, the upper electrode cap feeder and the lower electrode cap feeder are integrated on the electrode cap replacing machine, so that the electrode cap replacing machine has the functions of cap mounting, cap dismounting and detection, the integration degree is high, and the structural layout is reasonable.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by a person skilled in the art that the scope of protection covered by the present application is not limited to the embodiments with a specific combination of the features described above, but also covers other embodiments with any combination of the features described above or their equivalents without departing from the scope of the present application. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (10)

1. The electrode cap replacing machine comprises a shell, a cap detaching head, a driving device and a damper and is characterized in that a containing cavity is arranged on the shell, the cap detaching head is movably arranged in the containing cavity and comprises a cap detaching gear, a jaw cover and a plurality of jaws, the jaw cover comprises an upper cover and a lower cover, the upper cover and the lower cover are respectively positioned at two sides of the cap detaching gear and are fixedly connected together through a connecting pin, the cap detaching gear is positioned between the upper cover and the lower cover and can rotate relative to the jaw cover, the cap detaching gear is of an annular structure, the jaws are circumferentially arranged in an inner ring of the cap detaching gear, the rear end of each jaw is respectively hinged with the inner wall of the cap detaching gear around a first axial direction, a longitudinal clamping blade protruding forwards is arranged in the middle of the front end of each jaw, each clamping blade encloses a combined detaching channel, a forward clamping part and a reverse clamping part are respectively arranged at two sides of each clamping blade, and each jaw is respectively hinged with the cover through a positioning pin, each connecting pin, locating pin and first axial all are on a parallel with the axis of tearing open the cap gear, and casing and jack catch cover and are equipped with the through-hole that the passageway was dismantled in order to supply the electrode cap to pass through in the intercommunication, the attenuator is installed on the casing and can carry out the damping location to the jack catch lid, drive arrangement can drive tear the cap gear revolve open.

2. The electrode cap replacing machine according to claim 1, wherein the damper includes a mounting head, an elastic member, and a damping head, the mounting head is fixedly connected to the housing, the damping head is disposed along a radial direction of the jaw cover, one end of the damping head is connected to the mounting head through the elastic member, and the other end of the damping head abuts against a side surface of the jaw cover under the action of the elastic member.

3. The electrode cap replacing machine according to claim 1, wherein the driving device comprises a rotary cylinder or a motor and a power gear, the power gear is in transmission connection with the cap detaching gear, and the rotary cylinder or the motor can drive the power gear to rotate so as to drive the cap detaching gear to rotate through the power gear.

4. The electrode cap replacing machine according to claim 3, wherein the driving device further comprises a speed change gear, the power gear is in transmission connection with the cap detaching gear through the speed change gear, and the power gear and the speed change gear are both disposed in the accommodating cavity.

5. The electrode cap changing machine according to claim 1, further comprising a monitoring signal switch for monitoring a rotational position of the cap removing gear, the cap removing head or the driving device, wherein the monitoring signal switch is capable of transmitting a signal to a control device of the welding machine.

6. The electrode cap changing machine according to claim 1, wherein the rear end of the jaw is hinged to the inner wall of the cap removing gear in a manner that: the rear end of the clamping jaw is provided with a convex arc-shaped bulge, the inner wall of the cap detaching gear is provided with a corresponding arc-shaped groove, and the arc-shaped bulge is embedded into the arc-shaped groove and can rotate relatively.

7. The electrode cap replacing machine according to claim 1, wherein a positioning ring is further arranged on the housing and fixedly connected with the housing, the positioning ring is sleeved on the periphery of the jaw cover so as to transversely limit the cap removing head, and the lower end surface of the positioning ring abuts against the upper surface of the cap removing gear so as to longitudinally limit the cap removing head.

8. The electrode cap changing machine according to claim 1, wherein the lower edge of the upper cover abuts against the upper surface of the cap removing gear, and the upper edge of the lower cover abuts against the lower surface of the cap removing gear, so that the jaw cover and the cap removing gear can be limited from longitudinal relative displacement; the quantity of connecting pin is at least two, and each connecting pin is followed the circumference evenly distributed of jack catch lid, and the side of each connecting pin all with tear the inner wall of cap gear mutually paste to can restrict the jack catch lid and tear the cap gear open and carry out lateral relative movement.

9. The electrode cap changing machine according to claim 1, wherein the housing further comprises an oil mist spray system and an oil mist spray head pipeline, an inlet end of the oil mist spray head pipeline is connected with the oil mist spray system, and an outlet end of the oil mist spray head pipeline is communicated with the accommodating cavity.

10. The electrode cap changing machine according to any one of claims 1 to 9, further comprising an electrode cap detector and/or at least one electrode cap feeder, both of which are fixedly mounted on the housing, the electrode cap feeder being laterally juxtaposed with the decapping head.

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