CN116174322A - Automatic length detection equipment for shaft parts - Google Patents

Abstract

The invention discloses automatic detection equipment for the length of shaft parts, which relates to the technical field of automatic detection equipment and comprises a base, and a feeding channel and a discharging channel which are arranged on the base, wherein the feeding channel is positioned at the rear side of the top of the base, the discharging channel is positioned at the front side of the top of the base, the feeding channel and the discharging channel are arranged in parallel, and a plurality of detection stations are arranged between the feeding channel and the discharging channel; each detection station sequentially comprises a row plate, a detection table and a separation plate along the direction from the feeding channel to the discharging channel, a part lifting plate is arranged between the row plate and the detection table, and a detection blocking plate is arranged between the detection table and the separation plate. The invention provides automatic detection equipment for the length of shaft parts, which is higher in efficiency and capable of guaranteeing the precision, and aims to solve the problems that the existing manual detection mode is lower in efficiency and cannot guarantee the precision.

Description

Automatic length detection equipment for shaft parts

Technical Field

The invention relates to the technical field of automatic detection equipment, in particular to automatic detection equipment for the length of shaft parts.

Background

In the factory production process, the length detection of the product is common, manual detection is generally adopted, but with the improvement of the product requirement, the full detection of many products is required, and the manual detection has various instabilities, so that the detection efficiency is low, and the measurement accuracy is limited by a measurement tool.

Disclosure of Invention

The invention provides automatic detection equipment for the length of shaft parts, which is higher in efficiency and capable of guaranteeing the precision, and aims to solve the problems that the existing manual detection mode is lower in efficiency and cannot guarantee the precision.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the automatic detection equipment for the length of the shaft part comprises a base, and a feeding channel and a discharging channel which are arranged on the base, wherein the feeding channel is positioned at the rear side of the top of the base, the discharging channel is positioned at the front side of the top of the base, the feeding channel and the discharging channel are arranged in parallel, and a plurality of detection stations are arranged between the feeding channel and the discharging channel;

each detection station sequentially comprises a row plate, a detection table and a separation plate along the direction from a feeding channel to a discharging channel, a part lifting plate is arranged between the row plate and the detection table, and a detection blocking plate is arranged between the detection table and the separation plate;

the arrangement plate is obliquely arranged with a low front side and a high rear side, the rear side of the arrangement plate is close to the feeding channel, and a pushing cylinder for pushing parts on the feeding channel to the arrangement plate is arranged at the rear side of the feeding channel;

the top of the detection table is an inclined plane with a low front side and a high rear side, the front side and the rear side of the detection table are vertical planes, and the rear side of the detection table is higher than the front side of the arrangement plate; the left side and the right side of the detection table are respectively provided with a blocking block and a detection cylinder, the blocking block and the detection cylinder are arranged oppositely, a length detection area of a part is arranged between the blocking block and the detection cylinder, and a displacement sensor for monitoring the telescopic distance of a cylinder piston rod is arranged on the detection cylinder;

the part lifting plate is positioned between the arranging plate and the detecting table, the part lifting plate is vertically arranged, the top of the part lifting plate is an inclined plane with a low front side and a high rear side, the front side of the part lifting plate is attached to the rear side of the detecting table, and the rear side of the part lifting plate is close to the front side of the arranging plate; the bottom of the part lifting plate is provided with a lifting driving mechanism for driving the part lifting plate to move up and down; when the part lifting plate is at the lowest position, the foremost part on the arrangement plate can slide to the top of the part lifting plate; when the part lifting plate is positioned at the highest position, the part on the top of the part lifting plate can slide to the top of the detection table;

the sorting plate is obliquely arranged with a low front side and a high rear side, the front side of the sorting plate is close to the blanking channel, parts on the sorting plate can slide onto the blanking channel, and the rear side of the sorting plate is lower than the front side of the detection table;

the detection blocking plate is positioned between the detection table and the separation plate, the detection blocking plate is vertically arranged, the top of the detection blocking plate is an inclined plane with a low front side and a high rear side, the rear side of the detection blocking plate is attached to the front side of the detection table, and the front side of the detection blocking plate is close to the rear side of the separation plate; the bottom of the detection blocking plate is provided with a blocking driving mechanism for driving the detection blocking plate to move up and down; when the detection blocking plate is positioned at the highest position, the detection blocking plate can block the part at the top of the detection table; when the detection blocking plate is located at the lowest position, the part at the top of the detection table can slide over the detection blocking plate and onto the sorting plate.

Preferably, the sorting plate is provided with a defective product blanking hole, a movable filling block is arranged in the defective product blanking hole, the top of the movable filling block is an inclined plane with low front side and high rear side, the bottom of the movable filling block is provided with a filling block driving cylinder for driving the movable filling block to move up and down, and when the movable filling block is positioned at the highest position, the top surface of the movable filling block is flush with the upper surface of the sorting plate; when the movable filling block is positioned at the lowest position, the part can slide to the lower side of the sorting plate through the reject blanking hole.

Preferably, the front side of the upper part of the sorting plate is provided with a part blocking plate which can be turned or moved to be opened.

Preferably, the arrangement plate is provided with two part limiting plates, the two part limiting plates are arranged on two sides of the upper portion of the arrangement plate in parallel, and the distance between the two part limiting plates is adjustable.

Preferably, the arrangement mode of the adjustable distance between the two part limiting plates is as follows: one part limiting plate is fixed relative to the arrangement plate, the other part limiting plate can move relative to the arrangement plate, an auxiliary plate fixed relative to the arrangement plate is arranged on the back side of the movable part limiting plate, a plurality of sliding sleeves are fixed on the auxiliary plate, and a plurality of sliding rods matched with the sliding sleeves on the auxiliary plate are fixed on the back side of the movable part limiting plate; the back side of the movable part limiting plate is also provided with a locking rod which is arranged in parallel with the sliding rod, the auxiliary plate is provided with a locking rod positioning hole which is matched with the locking rod for use, the locking rod passes through the locking rod positioning hole to be arranged, the auxiliary plate is also provided with a bolt hole which penetrates through the inner wall of the locking rod positioning hole, and the bolt hole is provided with a locking bolt which can screw and fix the locking rod.

Preferably, the lifting driving mechanism is an air cylinder.

Preferably, the blocking driving mechanism is a cylinder.

Preferably, the feeding channel comprises two positioning plates a, two double-groove belt pulleys a, two conveying belts a and a driving motor a, wherein the two positioning plates a are opposite and are arranged in parallel, the two double-groove belt pulleys a are respectively arranged at two ends between the two positioning plates a, a rotating shaft is arranged at the center of each double-groove belt pulley a, two ends of the rotating shaft are respectively connected with the two positioning plates a in a rotating way, and the rotating shaft of one double-groove belt pulley a is connected with the driving motor a and is driven to rotate by the driving motor a; two clamping grooves on each double-groove belt pulley a are respectively in one-to-one correspondence with two conveying belts a, each conveying belt a bypasses the two double-groove belt pulleys a and is clamped in the corresponding clamping groove on the double-groove belt pulley a, and the two conveying belts a are arranged in parallel.

Preferably, the blanking channel comprises two positioning plates b, two double-groove belt pulleys b, two conveying belts b and a driving motor b, wherein the two positioning plates b are opposite and are arranged in parallel, the two double-groove belt pulleys b are respectively arranged at two ends between the two positioning plates b, a rotating shaft is arranged at the center of each double-groove belt pulley b, two ends of the rotating shaft are respectively connected with the two positioning plates b in a rotating way, and the rotating shaft of one double-groove belt pulley b is connected with the driving motor b and is driven to rotate by the driving motor b; two clamping grooves on each double-groove belt pulley b are respectively in one-to-one correspondence with two conveying belts b, each conveying belt b bypasses the two double-groove belt pulleys b and is clamped in the corresponding clamping groove on the double-groove belt pulley b, and the two conveying belts b are arranged in parallel.

Therefore, the invention has the following beneficial effects: 1. the operator only needs to put the parts on the feeding channel, the parts can be automatically pushed to the detection station, and the conveying, the detection, the sorting and the discharging are automatically carried out, so that the full-automatic detection is high in efficiency; 2. the length detection of the part is carried out through the displacement sensor, so that the precision is high and the stability is good.

Drawings

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

Fig. 2 is a schematic structural view of the inspection station of the present invention.

Fig. 3 is a cross-sectional view of a detection station of the present invention.

Fig. 4 is a schematic structural view of the alignment plate and the part limiting plate of the present invention.

FIG. 5 is a schematic view of the structure of the connection of the alignment plate, the detection table and the sorting plate of the present invention.

FIG. 6 is a schematic diagram of the structure of the feed channel of the present invention.

FIG. 7 is a schematic diagram of the structure of the blanking channel of the present invention.

Figure 8 is a schematic view of the component lift plate of the present invention prior to lifting.

Figure 9 is a schematic view of the component lift plate of the present invention during lifting.

Figure 10 is a schematic view of the structure of the part lifting plate of the present invention after being raised.

FIG. 11 is a schematic diagram showing the structure of the detection barrier of the present invention after the detection barrier is lowered.

1: a base; 2: a feeding channel; 3: a blanking channel; 4: detecting a station; 5: an arrangement plate; 6: a detection table; 7: a sorting plate; 8: a part lifting plate; 9: detecting a blocking plate; 10: a pushing cylinder; 11: a part; 12: a blocking piece; 13: detecting a cylinder; 14: a displacement sensor; 15: a lifting drive mechanism; 16: a blocking drive mechanism; 17: a movable filling block; 18: the filling block drives the cylinder; 19: a part blocking plate; 20: part limiting plates; 21: an auxiliary plate; 22: a sliding sleeve; 23: a slide bar; 24: a locking lever; 25: a locking lever positioning hole; 26: bolt holes; 27: a positioning plate a;28: a double groove pulley a;29: a conveyor belt a;30: a driving motor a;31: a positioning plate b;32: a double groove pulley b;33: a conveyor belt b;34: and driving the motor b.

Detailed Description

The invention is further described below with reference to the drawings and the detailed description.

The utility model provides an axle type part length automated inspection equipment, see fig. 1 through 11, includes base 1 and locates the material loading way 2 and the unloading way 3 on the base 1, material loading way 2 is located the top rear side of base 1, unloading way 3 is located the top front side of base 1, material loading way 2 and unloading way 3 parallel arrangement are equipped with a plurality of detection station 4 between material loading way 2 and the unloading way 3, as shown in fig. 1.

Each detection station 4 sequentially comprises a row plate 5, a detection table 6 and a sorting plate 7 along the direction from the feeding channel 2 to the discharging channel 3, a part lifting plate 8 is arranged between the row plate 5 and the detection table 6, and a detection blocking plate 9 is arranged between the detection table 6 and the sorting plate 7, as shown in fig. 2 and 3.

The arrangement plate 5 is obliquely arranged with a low front side and a high rear side, the rear side of the arrangement plate 5 is close to the feeding channel 2, and a pushing cylinder 10 for pushing the parts 11 on the feeding channel 2 to the arrangement plate 5 is arranged at the rear side of the feeding channel 2.

The top of the detection table 6 is an inclined plane with a low front side and a high rear side, the front side and the rear side of the detection table 6 are vertical planes, and the rear side of the detection table 6 is higher than the front side of the arrangement plate 5; the left and right sides of the detection table 6 are respectively provided with a blocking block 12 and a detection cylinder 13, the blocking block 12 and the detection cylinder 13 are oppositely arranged, a length detection area of the part 11 is arranged between the blocking block 12 and the detection cylinder 13, and the detection cylinder 13 is provided with a displacement sensor 14 for monitoring the telescopic distance of a cylinder piston rod.

The part lifting plate 8 is positioned between the arrangement plate 5 and the detection table 6, the part lifting plate 8 is vertically arranged, the top of the part lifting plate 8 is an inclined plane with a low front side and a high rear side, the front side of the part lifting plate 8 is attached to the rear side of the detection table 6, and the rear side of the part lifting plate 8 is close to the front side of the arrangement plate 5; the bottom of the part lifting plate 8 is provided with a lifting driving mechanism 15 for driving the part lifting plate 8 to move up and down, and the lifting driving mechanism 15 is an air cylinder; when the part lifting plate 8 is at the lowest position, the foremost part 11 on the arrangement plate 5 can slide to the top of the part lifting plate 8; when the part lifting plate 8 is at the highest position, the part 11 on top of the part lifting plate 8 can slide to the top of the inspection stage 6.

The sorting plate 7 is obliquely arranged with a low front side and a high rear side, the front side of the sorting plate 7 is close to the blanking channel 3, parts on the sorting plate 7 can slide onto the blanking channel 3, and the rear side of the sorting plate 7 is lower than the front side of the detection table 6.

The detection blocking plate 9 is positioned between the detection table 6 and the separation plate 7, the detection blocking plate 9 is vertically arranged, the top of the detection blocking plate 9 is an inclined plane with a low front side and a high rear side, the rear side of the detection blocking plate 9 is attached to the front side of the detection table 6, and the front side of the detection blocking plate 9 is close to the rear side of the separation plate 7; the bottom of the detection blocking plate 9 is provided with a blocking driving mechanism 16 for driving the detection blocking plate 9 to move up and down, and the blocking driving mechanism 16 is an air cylinder; when the detection blocking plate 9 is positioned at the highest position, the detection blocking plate 9 can block parts at the top of the detection table 6; when the detection blocking plate 9 is in the lowest position, the part 11 on top of the detection table 6 can slide over the detection blocking plate 9 and onto the sorting plate 7.

A reject blanking hole is formed in the sorting plate 7, a movable filling block 17 is arranged in the reject blanking hole, the top of the movable filling block 17 is an inclined plane with a low front side and a high rear side, a filling block driving cylinder 18 for driving the movable filling block 17 to move up and down is arranged at the bottom of the movable filling block 17, and when the movable filling block 17 is located at the highest position, the top surface of the movable filling block 17 is flush with the upper surface of the sorting plate 7; when the movable filling block 17 is positioned at the lowest position, the part 11 can slide to the lower side of the sorting plate 7 through the reject blanking hole, so that the reject part 11 is sorted.

The front side of the upper part of the sorting plate 7 is provided with a part blocking plate 19 which can be turned over or moved to be opened, and the part blocking plate 19 is used for temporarily blocking the part 11 on the sorting plate 7 and preventing the part 11 from excessively sliding onto the blanking channel 3 to influence the normal conveying of the blanking channel 3.

Two part limiting plates 20 are arranged on the arrangement plate 5, the two part limiting plates 20 are arranged on two sides of the upper portion of the arrangement plate 5 in parallel, and the distance between the two part limiting plates 20 is adjustable. As shown in fig. 4, the arrangement mode of the adjustable spacing between the two part limiting plates 20 is as follows: one part limiting plate 20 is fixed relative to the arrangement plate 5, the other part limiting plate 20 can move relative to the arrangement plate 5, an auxiliary plate 21 fixed relative to the arrangement plate 5 is arranged on the back side of the movable part limiting plate 20, two sliding sleeves 22 are fixed on the auxiliary plate 21, and two sliding rods 23 matched with the sliding sleeves 22 on the auxiliary plate 21 are fixed on the back side of the movable part limiting plate 20; the back side of the movable part limiting plate 20 is also provided with a locking rod 24 which is arranged in parallel with the sliding rod 23, the auxiliary plate 21 is provided with a locking rod positioning hole 25 which is matched with the locking rod 24, the locking rod 24 passes through the locking rod positioning hole 25, the auxiliary plate 21 is also provided with a bolt hole 26 which penetrates through the inner wall of the locking rod positioning hole 25, and the bolt hole 26 is provided with a locking bolt which can screw and fix the locking rod 24. By adjusting the distance between the two part limiting plates 20, the parts 11 on the arrangement plate 5 can be arranged as orderly as possible, so that the parts 11 can more accurately enter the length detection area when the parts are lifted to the detection table 6 by the part lifting plate 8 at the later stage.

The feeding channel 2 comprises two positioning plates a27, two double-groove belt pulleys a28, two conveyor belts a29 and a driving motor a30, as shown in fig. 6, the two positioning plates a27 are opposite and are arranged in parallel, the two double-groove belt pulleys a28 are respectively arranged at two ends between the two positioning plates a27, a rotating shaft is arranged at the center of each double-groove belt pulley a28, two ends of the rotating shaft are respectively connected with the two positioning plates a27 in a rotating way, and the rotating shaft of one double-groove belt pulley a28 is connected with the driving motor a30 and is driven to rotate by the driving motor a 30; two clamping grooves on each double-groove belt pulley a28 are respectively in one-to-one correspondence with two conveying belts a29, each conveying belt a29 bypasses the two double-groove belt pulleys a28 and is clamped in the corresponding clamping groove on the double-groove belt pulley a28, and the two conveying belts a29 are arranged in parallel.

The blanking channel 3 comprises two positioning plates b31, two double-groove belt pulleys b32, two conveying belts b33 and a driving motor b34, as shown in fig. 7, the two positioning plates b31 are opposite and are arranged in parallel, the two double-groove belt pulleys b32 are respectively arranged at two ends between the two positioning plates b31, a rotating shaft is arranged at the center of each double-groove belt pulley b32, two ends of the rotating shaft are respectively connected with the two positioning plates b31 in a rotating way, and the rotating shaft of one double-groove belt pulley b32 is connected with the driving motor b34 and is driven to rotate by the driving motor b 34; two clamping grooves on each double-groove belt pulley b32 are respectively in one-to-one correspondence with two conveying belts b33, each conveying belt b33 bypasses the two double-groove belt pulleys b32 and is clamped in the corresponding clamping groove on the double-groove belt pulley b32, and the two conveying belts b33 are arranged in parallel.

When detecting the length of the parts 11, an operator only needs to put the parts 11 to be detected on the feeding channel 2 one by one, the parts 11 are conveyed through the feeding channel 2, before the parts are conveyed to the detection station 4 to be used, the parts 11 on the feeding channel 2 are pushed onto the arrangement plate 5 by the pushing cylinder 10 at the rear side of the detection station 4, as the arrangement plate 5 is in the inclined arrangement with the low front side and the high rear side, the parts 11 roll forward on the arrangement plate 5 and are propped against and arranged one by one, the lower parts of the parts 11 at the forefront side are positioned at the top of the part lifting plate 8, and the front side is propped against the rear side of the detection table 6, as shown in fig. 8.

The detection blocking plate 9 is lifted in advance, then the part lifting plate 8 is lifted, the forefront part 11 is transported to the detection table 6, and the part 11 at the top of the part lifting plate 8 cannot slide down in the lifting process of the part lifting plate 8 because the top of the part lifting plate 8 is an inclined plane with a low front side and a high rear side, as shown in fig. 9.

When the part lifting plate 8 is lifted to the highest position, the part 11 on the top of the part lifting plate 8 slides to the top of the inspection table 6 and is blocked by the inspection blocking plate 9, as shown in fig. 10. At this time, the part 11 is located in the length detection area between the blocking block 12 and the detection cylinder 13, the detection cylinder 13 is started, the piston rod of the detection cylinder 13 extends until one end of the part 11 abuts against the piston rod of the detection cylinder 13, the other end abuts against the blocking block 12, and the detection cylinder 13 is provided with a displacement sensor 14 for monitoring the telescopic distance of the piston rod of the cylinder. The length of the part 11 can be calculated and whether the part 11 is qualified or not can be judged by presetting the interval between the piston rod of the detection cylinder 13 and the blocking block 12 at the initial time and recording the extension length of the piston rod of the detection cylinder 13 in the detection process through the displacement sensor 14.

After the detection of the parts 11 is completed, the detection blocking plate 9 moves downward, and the parts 11 on the top of the detection table 6 slide over the detection blocking plate 9 and onto the sorting plate 7, as shown in fig. 11. If the part 11 is unqualified, the movable filling blocks 17 on the sorting plate 7 move downwards, and the part 11 slides to the lower side of the sorting plate 7 through the unqualified product blanking holes and is collected; if the part 11 is acceptable, the movable packing block 17 on the sorting deck 7 does not move down, and the part 11 slides over the top surface of the movable packing block 17 and finally onto the blanking lane 3.

Claims (9)

1. Automatic length detection equipment for shaft parts is characterized in that: the automatic feeding device comprises a base (1), and a feeding channel (2) and a discharging channel (3) which are arranged on the base (1), wherein the feeding channel (2) is positioned at the rear side of the top of the base (1), the discharging channel (3) is positioned at the front side of the top of the base (1), the feeding channel (2) and the discharging channel (3) are arranged in parallel, and a plurality of detection stations (4) are arranged between the feeding channel (2) and the discharging channel (3);

each detection station (4) sequentially comprises a row plate (5), a detection table (6) and a separation plate (7) along the direction from the feeding channel (2) to the discharging channel (3), a part lifting plate (8) is arranged between the row plate (5) and the detection table (6), and a detection blocking plate (9) is arranged between the detection table (6) and the separation plate (7);

the arrangement plate (5) is obliquely arranged with a low front side and a high rear side, the rear side of the arrangement plate (5) is arranged close to the feeding channel (2), and a pushing cylinder (10) for pushing the parts (11) on the feeding channel (2) to the arrangement plate (5) is arranged at the rear side of the feeding channel (2);

the top of the detection table (6) is an inclined plane with a low front side and a high rear side, the front side and the rear side of the detection table (6) are vertical planes, and the rear side of the detection table (6) is higher than the front side of the arrangement plate (5); the left side and the right side of the detection table (6) are respectively provided with a blocking block (12) and a detection cylinder (13), the blocking block (12) and the detection cylinder (13) are oppositely arranged, a length detection area of a part (11) is arranged between the blocking block (12) and the detection cylinder (13), and a displacement sensor (14) for monitoring the telescopic distance of a cylinder piston rod is arranged on the detection cylinder (13);

the part lifting plate (8) is positioned between the arrangement plate (5) and the detection table (6), the part lifting plate (8) is vertically arranged, the top of the part lifting plate (8) is an inclined plane with a low front side and a high rear side, the front side of the part lifting plate (8) is attached to the rear side of the detection table (6), and the rear side of the part lifting plate (8) is close to the front side of the arrangement plate (5); the bottom of the part lifting plate (8) is provided with a lifting driving mechanism (15) for driving the part lifting plate (8) to move up and down; when the part lifting plate (8) is at the lowest position, the foremost part (11) on the arrangement plate (5) can slide to the top of the part lifting plate (8); when the part lifting plate (8) is positioned at the highest position, the part (11) at the top of the part lifting plate (8) can slide to the top of the detection table (6);

the sorting plate (7) is obliquely arranged with a low front side and a high rear side, the front side of the sorting plate (7) is close to the blanking channel (3), parts on the sorting plate (7) can slide onto the blanking channel (3), and the rear side of the sorting plate (7) is lower than the front side of the detection table (6);

the detection blocking plate (9) is positioned between the detection table (6) and the separation plate (7), the detection blocking plate (9) is vertically arranged, the top of the detection blocking plate (9) is an inclined plane with a low front side and a high rear side, the rear side of the detection blocking plate (9) is attached to the front side of the detection table (6), and the front side of the detection blocking plate (9) is close to the rear side of the separation plate (7); the bottom of the detection blocking plate (9) is provided with a blocking driving mechanism (16) for driving the detection blocking plate (9) to move up and down; when the detection blocking plate (9) is positioned at the highest position, the detection blocking plate (9) can block parts at the top of the detection table (6); when the detection blocking plate (9) is located at the lowest position, the part (11) at the top of the detection table (6) can slide over the detection blocking plate (9) and onto the sorting plate (7).

2. The automatic shaft part length detection device according to claim 1, wherein: a defective product blanking hole is formed in the sorting plate (7), a movable filling block (17) is arranged in the defective product blanking hole, the top of the movable filling block (17) is an inclined plane with a low front side and a high rear side, a filling block driving cylinder (18) for driving the movable filling block (17) to move up and down is arranged at the bottom of the movable filling block (17), and when the movable filling block (17) is located at the highest position, the top surface of the movable filling block (17) is flush with the upper surface of the sorting plate (7); when the movable filling block (17) is positioned at the lowest position, the part (11) can slide to the lower side of the sorting plate (7) through the reject blanking hole.

3. An automatic length detection apparatus for shaft parts according to claim 1 or 2, characterized in that: the front side of the upper part of the sorting plate (7) is provided with a part blocking plate (19) which can be turned over or moved to be opened.

4. The automatic shaft part length detection device according to claim 1, wherein: two part limiting plates (20) are arranged on the arrangement plate (5), the two part limiting plates (20) are arranged on two sides of the upper portion of the arrangement plate (5) in parallel, and the distance between the two part limiting plates (20) is adjustable.

5. The automatic shaft part length detection device according to claim 4, wherein: the arrangement mode of the adjustable distance between the two part limiting plates (20) is as follows: one part limiting plate (20) is fixed relative to the arrangement plate (5), the other part limiting plate (20) can move relative to the arrangement plate (5), an auxiliary plate (21) fixed relative to the arrangement plate (5) is arranged on the back side of the movable part limiting plate (20), a plurality of sliding sleeves (22) are fixed on the auxiliary plate (21), and a plurality of sliding rods (23) matched with the sliding sleeves (22) on the auxiliary plate (21) are fixed on the back side of the movable part limiting plate (20); the back side of the movable part limiting plate (20) is also provided with a locking rod (24) which is arranged in parallel with the sliding rod (23), the auxiliary plate (21) is provided with a locking rod positioning hole (25) which is matched with the locking rod (24), the locking rod (24) passes through the locking rod positioning hole (25) to be arranged, the auxiliary plate (21) is also provided with a bolt hole (26) which penetrates through the inner wall of the locking rod positioning hole (25), and the bolt hole (26) is provided with a locking bolt which can screw and fix the locking rod (24).

6. The automatic shaft part length detection device according to claim 1, wherein: the lifting driving mechanism (15) is an air cylinder.

7. The automatic shaft part length detection device according to claim 1, wherein: the blocking driving mechanism (16) is an air cylinder.

8. The automatic shaft part length detection device according to claim 1, wherein: the feeding channel (2) comprises two positioning plates a (27), two double-groove belt pulleys a (28), two conveying belts a (29) and a driving motor a (30), wherein the two positioning plates a (27) are opposite and are arranged in parallel, the two double-groove belt pulleys a (28) are respectively arranged at two ends between the two positioning plates a (27), a rotating shaft is arranged at the center of each double-groove belt pulley a (28), two ends of the rotating shaft are respectively connected with the two positioning plates a (27) in a rotating way, and the rotating shaft of one double-groove belt pulley a (28) is connected with the driving motor a (30) and is driven to rotate through the driving motor a (30); two clamping grooves on each double-groove belt pulley a (28) are respectively in one-to-one correspondence with two conveying belts a (29), each conveying belt a (29) bypasses the two double-groove belt pulleys a (28) and is clamped in the corresponding clamping groove on the double-groove belt pulley a (28), and the two conveying belts a (29) are arranged in parallel.

9. An automatic length detection apparatus for shaft-like parts according to claim 1 or 8, wherein: the blanking channel (3) comprises two positioning plates b (31), two double-groove belt pulleys b (32), two conveying belts b (33) and a driving motor b (34), wherein the two positioning plates b (31) are oppositely and parallelly arranged, the two double-groove belt pulleys b (32) are respectively arranged at two ends between the two positioning plates b (31), a rotating shaft is arranged at the center of each double-groove belt pulley b (32), two ends of the rotating shaft are respectively connected with the two positioning plates b (31) in a rotating way, and the rotating shaft of one double-groove belt pulley b (32) is connected with the driving motor b (34) and is driven to rotate through the driving motor b (34); two clamping grooves on each double-groove belt pulley b (32) are respectively in one-to-one correspondence with two conveying belts b (33), each conveying belt b (33) bypasses the two double-groove belt pulleys b (32) and is clamped in the corresponding clamping groove on the double-groove belt pulley b (32), and the two conveying belts b (33) are arranged in parallel.

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