CN113848414A - Electric conductivity detection device for tungsten-zirconium electrode bar production - Google Patents

Abstract

The invention relates to a detection device, in particular to a conductivity detection device for tungsten-zirconium electrode bar production. The technical problem is as follows: the conductivity detection device for producing the tungsten-zirconium electrode rod is good in electrode rod detection effect and convenient for collecting qualified electrode rods. A tungsten zirconium electrode bar production is with electric conductivity detection device includes: the device comprises a base, wherein six first supports are arranged on the base, and rotating shafts are rotatably arranged between two adjacent first supports; five first crawler belt placing tables are wound among the three rotating shafts, and the placing tables are arranged on the base; the power-on metal block is arranged on the placing table; the bulb is arranged on the placing table; and the coil is arranged on the placing table. The invention carries out automatic conductive detection on the electrode bar by matching the electrified metal block, the bulb, the coil and the wire, and is more convenient to use.

Description

Electric conductivity detection device for tungsten-zirconium electrode bar production

Technical Field

The invention relates to a detection device, in particular to a conductivity detection device for tungsten-zirconium electrode bar production.

Background

Tungsten zirconium electrode bar is before using, people need carry out electrically conductive detection to it, it just can be used to detect qualified electrode bar, the electrically conductive detection of electrode bar needs people to use detection device to detect, at first people will wait to detect manually the electrode bar place on detection device, people's manual control detection device carries out electrically conductive detection after that, current electrically conductive detection device is not enough to the fixity of electrode bar, and then make the detection effect good inadequately, it needs people's manual taking off to detect qualified electrode bar, it is comparatively inconvenient.

In conclusion, aiming at the problems, the conductivity detection device for producing the tungsten-zirconium electrode rod is good in electrode rod detection effect and convenient for collecting qualified electrode rods.

Disclosure of Invention

In order to overcome the defects of poor detection effect and manual collection of electrode bars, the technical problem is as follows: the conductivity detection device for producing the tungsten-zirconium electrode rod is good in electrode rod detection effect and convenient for collecting qualified electrode rods.

The technical scheme of the invention is as follows: a tungsten zirconium electrode bar production is with electric conductivity detection device includes:

the device comprises a base, wherein first brackets are symmetrically arranged on the base, and three rotating shafts are rotatably arranged between the first brackets;

five first crawler belts are wound among the three rotating shafts;

the base is provided with a placing table;

the power-on metal block is arranged on the placing table;

the bulb is arranged on the placing table;

the coil is arranged on the placing table;

the electric wire is connected among the coil, the bulb and the electrified metal block;

the base is provided with a first baffle;

the first baffle plate is provided with a first guide block;

the first guide block is provided with a first guide block;

the first sliding block is arranged in the second guide block in a sliding manner;

the first elastic piece is arranged between the first sliding block and the second guide block in an up-down symmetrical manner;

the base is provided with a first material box;

the driving mechanism is arranged between the base and the first guide block;

the fixing mechanism is arranged on the base.

Further, the drive mechanism includes:

the base is provided with a second bracket;

the driving rod is rotatably arranged on the second bracket;

the driving rod is provided with a conical top block;

the second sliding block is arranged on the first guide block in a sliding mode and matched with the conical top block, and the second sliding block is matched with the first sliding block;

the motor is arranged on the base, and the driving rod is connected with the output shaft of the motor.

Further, the fixing mechanism includes:

the driving rod is provided with a special-shaped top block;

the supporting table is arranged on the base;

spacing platform, supporting bench slidable is equipped with spacing platform, spacing platform and special-shaped kicking block cooperation.

Further, the method also comprises the following steps:

the first baffle and the placing table are provided with third brackets;

a third guide block is arranged between the third brackets;

the third guide block is provided with a second sliding rod in a sliding way;

the first iron block is arranged on the first sliding rod and matched with the coil;

the first sliding rod is provided with a guide rod in a sliding manner;

and the guide rod is provided with a second baffle plate, and the second baffle plate slides in the third guide block.

Further, the method also comprises the following steps:

the third guide block is provided with a second sliding rod in a sliding manner, and a spring is arranged between the second sliding rod and the first baffle;

the second sliding rod is provided with a pushing block;

the second guide block is provided with a second fixing rod;

the first sliding block is provided with a first fixed rod;

the seesaw is rotatably arranged between the second fixed rod and the first fixed rod and is connected with the second sliding rod in a sliding manner;

and the second material box is arranged between the first baffle and the first bracket on one side in a sliding manner.

Further, the method also comprises the following steps:

the first sliding rod is provided with a first sliding block;

the connecting rod is rotatably arranged on the telescopic block;

the third sliding rod is arranged on the third guide block in a sliding manner and is connected with the connecting rod in a rotating manner;

a second iron block is arranged on the third sliding rod and matched with the coil;

a second elastic piece is arranged between the telescopic block and the first sliding rod;

and the limiting block is arranged on the second sliding rod and matched with the telescopic block.

Further, the method also comprises the following steps:

the base is provided with a fourth bracket which is connected with the supporting table;

the fourth bracket is rotatably provided with a first driven rod;

three second tracks are wound between the first driven rod and the rotating shaft on one side;

the fourth bracket is rotatably provided with a second driven rod;

the second driven rod is provided with a discharging column;

gears are symmetrically arranged on the second driven rod and the first driven rod, and the two adjacent gears are meshed;

the third crawler belt is wound between the second driven rod and the driving rod;

and the third material box is arranged on the fourth support and matched with the blanking column.

Further, the third material box is square.

The invention has the beneficial effects that: 1. the invention carries out automatic conductive detection on the electrode bar by matching the electrified metal block, the bulb, the coil and the wire, and is more convenient to use.

2. Through the cooperation that is equipped with actuating mechanism and fixed establishment, with electrode bar self-holding between circular telegram metal block and first slider, fix the electrode bar, can carry out the electric conduction detection with the electrode bar better.

3. Through the cooperation that is equipped with first slide bar, first iron plate, second baffle and guide bar, block unqualified electrode bar, still be equipped with and promote the piece, push away unqualified electrode bar to the second thing workbin in, be convenient for people handle it.

4. Through the cooperation that is equipped with flexible piece and stopper, and then make second iron plate and coil separation, be convenient for detect the electrode bar once more.

5. Through the cooperation that is equipped with third material case, blanking post and third track for the electrode bar can fall automatically in order, need not people's manual electrode bar of placing.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a partial explosion according to the present invention.

Fig. 3 is a schematic perspective view of the driving mechanism of the present invention.

Fig. 4 is a schematic perspective view of the fixing mechanism of the present invention.

Fig. 5 is a schematic perspective view of a first embodiment of the present invention.

Fig. 6 is a schematic perspective view of a second embodiment of the present invention.

Fig. 7 is a perspective view of a third embodiment of the present invention.

Fig. 8 is a perspective view of a fourth embodiment of the present invention.

Fig. 9 is an external perspective view of a fourth embodiment of the present invention.

FIG. 10 is a schematic view of a fifth partial body structure according to the present invention.

Reference numbers in the drawings: 1: base, 2: first bracket, 3: first track, 4: placing table, 5: energized metal block, 6: bulb, 7: coil, 8: electric wire, 9: first baffle, 10: first guide block, 11: second guide block, 12: first slider, 13: first elastic member, 14: first material tank, 15: drive mechanism, 1501: second stent, 1502: active bar, 1503: tapered top block, 1504: second slider, 1505: motor, 16: fixing mechanism, 1601: dysmorphism kicking block, 1602: support table, 1603: spacing platform, 17: third bracket, 18: third guide block, 19: first slide bar, 20: first iron block, 21: second baffle, 22: guide bar, 23: second slide bar, 24: push block, 25: seesaw, 26: first fixing lever, 27: second fixing bar, 28: second material box, 29: expansion block, 30: link, 31: third slide bar, 32: second iron block, 33: second elastic member, 34: stopper, 35: fourth bracket, 36: first driven lever, 37: second crawler, 38: second driven lever, 39: blanking column, 40: gear, 41: third crawler, 42: and a third material box.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

A conductivity detection device for producing a tungsten-zirconium electrode bar is disclosed, as shown in figure 1, figure 2, figure 3 and figure 4, and comprises a base 1, a first bracket 2, a first crawler belt 3, a placing table 4, an electrified metal block 5, a bulb 6, a coil 7, an electric wire 8, a first baffle 9, a first guide block 10, a second guide block 11, a first slide block 12, a first elastic part 13, a first material box 14, a driving mechanism 15 and a fixing mechanism 16, wherein the left side of the top of the base 1 is symmetrically provided with the first bracket 2 in front and back, three rotating shafts are rotatably arranged among the first brackets 2, five first crawler belts 3 are wound among the three rotating shafts, the left back side of the top of the base 1 is provided with the placing table 4, the front side of the top of the placing table 4 is provided with the electrified metal block 5, the right side of the top of the placing table 4 is provided with the bulb 6, the left side of the top of the placing table 4 is provided with the coil 7, the bulb 6 and the electric wire 8 are connected among the electrified metal block 5, base 1 top left side front side is equipped with first baffle 9, first baffle 9 right part upside is equipped with first guide block 10, first guide block 10 upper portion rear side is equipped with second guide block 11, second guide block 11 internal sliding formula is equipped with first slider 12, the longitudinal symmetry is equipped with first elastic component 13 between first slider 12 and the second guide block 11, first material case 14 has been placed on base 1 top left side, first material case 14 is located first track 3 left sides, be equipped with actuating mechanism 15 between base 1 and the first guide block 10, base 1 top middle part is equipped with fixed establishment 16.

When people need to conduct detection on an electrode rod, the device can be used, firstly, people place the electrode rod to be detected on the first crawler 3 on the right side and enable the electrode rod to be located between the first sliding block 12 and the electrified metal block 5, the first material box 14 is placed on the left side of the base 1, then people start the driving mechanism 15 to operate, when a part of the driving mechanism 15 is in contact with the first sliding block 12, the first sliding block 12 is driven to move backwards, at the moment, the first elastic piece 13 deforms, the first sliding block 12 moves backwards to be in contact with the electrode rod and drives the electrode rod to move backwards, when the electrode rod is in contact with the electrified metal block 5, the first sliding block 12 stops moving, at the moment, the electrified metal block 5 can detect the conductivity of the electrode rod, when the conductivity of the electrode rod is qualified, the electrode rod can enable the lamp 6 to light through the electrified metal block 5 and the electric wire 8, the coil 7 generates magnetism, when the electric conductivity of electrode bar is unqualified, bulb 6 can not light, coil 7 has no magnetism, when actuating mechanism 15's part and first slider 12 separate, first elastic component 13 drives first slider 12 and resets forward for first slider 12 separates with the electrode bar, people just can use the instrument to stir qualified electrode bar left after that, make it fall to first material case 14 in from first track 3, take off unqualified electrode bar from first track 3, when the electrode bar in first material case 14 accumulates to a certain extent, can change first material case 14, when need not use this device, it can to close actuating mechanism 15.

The driving mechanism 15 comprises a second bracket 1501, a driving rod 1502, a conical top block 1503, a second sliding block 1504 and a motor 1505, the second bracket 1501 is arranged on the left side of the top of the base 1, the driving rod 1502 is rotatably arranged on the upper portion of the second bracket 1501, the conical top block 1503 is arranged on the front side of the driving rod 1502, the second sliding block 1504 is arranged on the inner side of the first guide block 10 in a sliding mode, the second sliding block 1504 is matched with the conical top block 1503, the second sliding block 1504 is matched with the first sliding block 12, the motor 1505 is arranged on the front side of the top of the base 1, and the driving rod 1502 is connected with an output shaft of the motor 1505.

Firstly, people start the motor 1505, the output shaft of the motor 1505 drives the conical top block 1503 to rotate through the driving rod 1502, when the convex part of the conical top block 1503 contacts with the second slide block 1504, the conical top block 1503 jacks up the second slide block 1504, when the second slide block 1504 contacts with the first slide block 12, the second slide block 1504 extrudes the first slide block 12 backwards, at the moment, the conductivity detection of the electrode bar can be carried out, when the convex part of the conical top block 1503 separates from the second slide block 1504, the second slide block 1504 resets downwards due to gravity, so that the second slide block 1504 does not contact with the first slide block 12 any more, then the first slide block 12 resets forwards, and thus the conductivity detection of the electrode bar is convenient.

Fixing mechanism 16 is equipped with special-shaped kicking block 1601, a supporting bench 1602 and spacing platform 1603 including special-shaped kicking block 1601, drive rod 1502 rear side, and 1 top left side of base is equipped with a supporting bench 1602, and a supporting bench 1602 is located second support 1501 rear side, and a supporting bench 1602 inboard slidingtype is equipped with spacing platform 1603, and spacing platform 1603 cooperates with special-shaped kicking block 1601.

When the drive rod 1502 rotates, the drive rod 1502 drives special-shaped kicking block 1601 and rotates, when special-shaped kicking block 1601 protruding part contacts with spacing platform 1603, special-shaped kicking block 1601 upwards jack-up spacing platform 1603, spacing platform 1603 blocks the electrode rod this moment, so when carrying out the conduction detection, the electrode rod can not slide everywhere, and then influence the effect that detects, when special-shaped kicking block 1601 protruding part separates with spacing platform 1603, spacing platform 1603 resets downwards because of gravity reason, spacing platform 1603 no longer blocks the electrode rod this moment, the electrode rod just can drop to first material incasement 14 left this moment.

Example 2

Based on embodiment 1, as shown in fig. 5, 6, 7, 8, 9 and 10, the present invention further includes a third bracket 17, a third guide block 18, a first sliding rod 19, a first iron block 20, a second baffle plate 21 and a guide rod 22, the third bracket 17 is disposed on both the upper side of the first baffle plate 9 and the front side of the placing table 4, the third guide block 18 is disposed between the third brackets 17, the first sliding rod 19 is slidably disposed on the inner side of the left portion of the third guide block 18, the first iron block 20 is disposed on the rear side of the first sliding rod 19, the first iron block 20 is engaged with the coil 7, the guide rod 22 is slidably disposed in the middle of the first sliding rod 19, the second baffle plate 21 is disposed in the middle of the guide rod 22, and the second baffle plate 21 is slidably disposed in the third guide block 18.

Under the initial condition, second baffle 21 is located the third guide block 18 downside, when the electrically conductive detection of electrode bar is qualified, coil 7 produces magnetism, coil 7 can drive first iron plate 20 backward movement and hold it, first iron plate 20 drives first slide bar 19 backward movement for guide bar 22 drives second baffle 21 upward movement, the electrode bar just can fall to first material case 14 this moment in, when the electrically conductive detection of electrode bar is unqualified, coil 7 can not produce magnetism, the electrode bar is blocked by second baffle 21.

The lifting device is characterized by further comprising a second sliding rod 23, a pushing block 24, a seesaw 25, a first fixing rod 26, a second fixing rod 27 and a second material box 28, the second sliding rod 23 is arranged on the inner side of the right portion of the third guide block 18 in a sliding mode, a spring is arranged between the second sliding rod 23 and the first baffle 9, the pushing block 24 is arranged at the bottom of the rear side of the second sliding rod 23, the first fixing rod 26 is arranged on the upper portion of the second guide block 11, the second fixing rod 27 is arranged on the front portion of the left side of the first sliding block 12, the seesaw 25 is rotatably arranged between the second fixing rod 27 and the first fixing rod 26, the seesaw 25 is connected with the second sliding rod 23 in a sliding mode, and the second material box 28 is arranged between the first baffle 9 and the first support 2 on the front side in a sliding mode.

Firstly, people place a second material box 28 between a first baffle 9 and a first bracket 2, when a first sliding block 12 moves backwards, the first sliding block 12 drives a seesaw 25 to move through a second fixing rod 27, the seesaw 25 drives a second sliding rod 23 to move forwards, the second sliding rod 23 drives a pushing block 24 to move forwards, at the moment, a spring deforms, the pushing block 24 pushes an electrode bar which is not inspected forwards to enable the electrode bar to fall into the second material box 28, when the first sliding block 12 returns forwards, the second sliding rod 23 drives the pushing block 24 to return backwards, then the spring returns, so that people can conveniently collect and process the electrode bar which is not inspected, when the electrode bar in the second material box 28 is accumulated to a certain degree, the second material box 28 is lifted upwards, then the second material box 28 is taken out from between the first baffle 9 and the first bracket 2, and then the unqualified electrode bar is processed, after the treatment is completed, the second material box 28 is reset.

Still include flexible piece 29, connecting rod 30, third slide bar 31, second iron plate 32, second elastic component 33 and stopper 34, first slide bar 19 middle part slidingtype is equipped with flexible piece 29, flexible piece 29 left side rotary type is equipped with connecting rod 30, third guide block 18 left part side lower sliding type is equipped with third slide bar 31, third slide bar 31 is connected with connecting rod 30 rotary type, third slide bar 31 rear side is equipped with second iron plate 32, second iron plate 32 and coil 7 cooperation, be equipped with second elastic component 33 between flexible piece 29 and the first slide bar 19, the anterior inboard of second slide bar 23 is equipped with stopper 34, stopper 34 and flexible piece 29 cooperation.

In the initial state, the limit block 34 is located at the rear side of the telescopic block 29, the limit block 34 blocks the telescopic block 29, when the coil 7 generates magnetism, the second iron block 32 moves backwards until being attracted by the coil 7, the second iron block 32 drives the third sliding rod 31 to move backwards, the third sliding rod 31 drives the connecting rod 30 to move backwards, the connecting rod 30 drives the telescopic block 29 to move leftwards, the connecting rod 30 drives the telescopic block 29 to move backwards, so that the telescopic block is not blocked by the limit block 34, at the moment, the second elastic part 33 deforms, then the telescopic block 29 can drive the first sliding rod 19 to move backwards, so that the first iron block 20 is attracted by the coil 7, at the moment, the spring deforms, the second sliding rod 23 is located at the front side of the third guide block 18, when the second sliding rod 23 moves backwards, the second sliding rod 23 drives the limit block 34 to move backwards, and when the second sliding rod 23 moves backwards, the spring resets, the limiting block 34 is located at the rear side of the telescopic block 29, the second elastic piece 33 drives the telescopic block 29 to reset to the right, so that the limiting block 34 blocks the telescopic block 29 again, when the second sliding rod 23 drives the limiting block 34 to move forward, the limiting block 34 drives the telescopic block 29 to move forward, and the telescopic block 29 drives the third sliding rod 31 to move forward through the connecting rod 30, so that the first iron block 20 is separated from the second iron block 32.

The automatic feeding device is characterized by further comprising a fourth support 35, a first driven rod 36, a second crawler belt 37, a second driven rod 38, a feeding column 39, gears 40, a third crawler belt 41 and a third material box 42, the fourth support 35 is arranged on the right side of the top of the base 1, the left side of the fourth support 35 is connected with the right side of the support table 1602, the first driven rod 36 is rotatably arranged on the lower side of the middle of the fourth support 35, the three second crawler belts 37 are wound between the first driven rod 36 and a rotating shaft on the rightmost side, the second driven rod 38 is rotatably arranged on the upper side of the middle of the fourth support 35, the feeding column 39 is arranged in the middle of the second driven rod 38, the gears 40 are symmetrically arranged on the second driven rod 38 and the first driven rod 36 in a front-back mode, the two adjacent gears 40 are meshed, the third crawler belt 41 is wound between the second driven rod 38 and the driving rod 1502, the third material box 42 is arranged on the upper portion of the right side of the fourth support 35, and the third material box 42 is matched with the feeding column 39.

First, one places the electrode rods to be tested in the third material box 42, and when the drive rod 1502 is rotated, the driving rod 1502 drives the second driven rod 38 to rotate through the third crawler belt 41, the second driven rod 38 drives the first driven rod 36 to rotate through the gear 40, the first driven rod 36 drives the first crawler belt 3 and the rotating shaft to rotate through the second crawler belt 37, so that the electrode rods qualified in detection can automatically fall into the first material tank 14, meanwhile, the second driven rod 38 drives the blanking column 39 to rotate, the electrode rod falls from the third material box 42 and is blocked by the blanking column 39, when the gap of the blanking column 39 is rotated to contact with the electrode rod, the blanking column 39 drives the electrode rod to rotate to the second crawler belt 37, the second crawler belt 37 transports the electrode rod to the first crawler belt 3 on the right side, then, the conductivity of the electrode rod can be detected, so that automatic and orderly blanking can be realized.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (8)

1. The utility model provides a production of tungsten zirconium electrode bar is with electric conductivity detection device which characterized in that includes:

the device comprises a base (1), wherein first supports (2) are symmetrically arranged on the base (1), and three rotating shafts are rotatably arranged between the first supports (2);

the first caterpillar bands (3), five first caterpillar bands (3) are wound among the three rotating shafts;

a placing table (4), wherein the base (1) is provided with the placing table (4);

the power-on metal block (5) is arranged on the placing table (4);

the bulb (6) is arranged on the placing table (4);

the coil (7) is arranged on the placing table (4);

the electric wire (8) is connected among the coil (7), the bulb (6) and the electrified metal block (5);

the base (1) is provided with a first baffle (9);

the first guide block (10) is arranged on the first baffle plate (9);

the first guide block (10) is provided with a first guide block (11);

the first sliding block (12) is arranged in the second guide block (11) in a sliding manner;

the first elastic piece (13) is arranged between the first sliding block (12) and the second guide block (11) in an up-down symmetrical mode;

the device comprises a first material box (14), wherein the first material box (14) is arranged on a base (1);

a driving mechanism (15), wherein the driving mechanism (15) is arranged between the base (1) and the first guide block (10);

the fixing mechanism (16) is arranged on the base (1).

2. The apparatus for detecting conductivity in production of W-Zr electrode bar according to claim 1, wherein the driving mechanism (15) comprises:

the base (1) is provided with a second bracket (1501);

the driving rod (1502) is arranged on the second bracket (1501) in a rotating mode;

the driving rod (1502) is provided with a conical top block (1503);

the second sliding block (1504), the second sliding block (1504) is arranged on the first guide block (10) in a sliding mode, the second sliding block (1504) is matched with the conical top block (1503), and the second sliding block (1504) is matched with the first sliding block (12);

the motor (1505), be equipped with motor (1505) on the base (1), drive lever (1502) is connected with motor (1505) output shaft.

3. The conductivity detection device for producing the tungsten-zirconium electrode bar according to claim 2, wherein the fixing mechanism (16) comprises:

the driving rod (1502) is provided with a special-shaped ejector block (1601);

a supporting table (1602), wherein the supporting table (1602) is arranged on the base (1);

spacing platform (1603), support bench (1602) go up the slip formula and are equipped with spacing platform (1603), and spacing platform (1603) cooperates with special-shaped kicking block (1601).

4. The apparatus for detecting conductivity in production of tungsten-zirconium electrode rod according to claim 3, further comprising:

the third supports (17) are arranged on the first baffle plate (9) and the placing table (4);

a third guide block (18) is arranged between the third brackets (17);

the first sliding rod (19) is arranged on the third guide block (18) in a sliding manner;

the first iron block (20) is arranged on the first sliding rod (19), and the first iron block (20) is matched with the coil (7);

a guide rod (22), wherein the first sliding rod (19) is provided with the guide rod (22) in a sliding way;

and a second baffle plate (21) is arranged on the guide rod (22), and the second baffle plate (21) slides in the third guide block (18).

5. The conductivity detection device for producing the tungsten-zirconium electrode bar according to claim 4, further comprising:

the second sliding rod (23) is arranged on the third guide block (18) in a sliding mode, and a spring is arranged between the second sliding rod (23) and the first baffle (9);

the second sliding rod (23) is provided with a pushing block (24);

the first fixing rod (26) is arranged on the second guide block (11);

the first sliding block (12) is provided with a first fixing rod (27), and the first sliding block (12) is provided with a first fixing rod (27);

the seesaw (25) is rotatably arranged between the second fixed rod (27) and the first fixed rod (26), and the seesaw (25) is connected with the second sliding rod (23) in a sliding manner;

the second material box (28) is arranged between the first baffle plate (9) and the first bracket (2) at one side in a sliding manner.

6. The apparatus for detecting conductivity in production of tungsten-zirconium electrode rod according to claim 5, further comprising:

a telescopic block (29), wherein the first sliding rod (19) is provided with the telescopic block (29) in a sliding way;

the connecting rod (30) is rotatably arranged on the telescopic block (29);

the third sliding rod (31) is arranged on the third guide block (18) in a sliding mode, and the third sliding rod (31) is rotatably connected with the connecting rod (30);

a second iron block (32) is arranged on the third sliding rod (31), and the second iron block (32) is matched with the coil (7);

a second elastic piece (33), wherein the second elastic piece (33) is arranged between the telescopic block (29) and the first sliding rod (19);

a limiting block (34), a limiting block (34) is arranged on the second sliding rod (23), and the limiting block (34) is matched with the telescopic block (29).

7. The apparatus for detecting conductivity in production of tungsten-zirconium electrode rod according to claim 6, further comprising:

the fourth support (35) is arranged on the base (1), and the fourth support (35) is connected with the supporting table (1602);

the first driven rod (36) is rotationally arranged on the fourth bracket (35);

a second crawler belt (37), three second crawler belts (37) are wound between the first driven rod (36) and the rotating shaft on one side;

the fourth bracket (35) is rotatably provided with a second driven rod (38);

the second driven rod (38) is provided with a discharging column (39);

the second driven rod (38) and the first driven rod (36) are symmetrically provided with gears (40), and two adjacent gears (40) are meshed;

a third crawler belt (41), wherein the third crawler belt (41) is wound between the second driven rod (38) and the driving rod (1502);

a third material box (42), a third material box (42) is arranged on the fourth support (35), and the third material box (42) is matched with the blanking column (39).

8. The apparatus for detecting conductivity of a W-Zr electrode bar as claimed in claim 7, wherein the third material box (42) is square.

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