CN112611301A - Steel sheet detection device that bends - Google Patents

Abstract

The invention discloses a steel plate bending detection device which comprises a lifting device, a roundness detection device, a surface detection device and a plane detection device. Through placing a steel sheet detection device that bends in comparatively quiet clean and tidy place, through the last lift cylinder of adjustment elevating gear, wherein lift slide rail and lift sliding sleeve carry out supplementary elevating system, come the detection height of whole adjustment surface detection device through four elevating gear. The steel plate with the arc is positioned by the positioning seat on the roundness detection device, the measuring head is contacted with the arc surface, and the micrometer is adjusted to measure the roundness of the steel plate. The conveying belt on the surface detection device drives the measuring table to displace, and the vertical adjusting belt and the transverse adjusting screw rod drive the surface detection head to perform surface detection on the bent steel plate. The horizontal ruler and the vertical ruler are used for detecting the plane of the steel plate by adjusting the screw rod on the detection.

Description

Steel sheet detection device that bends

Technical Field

The invention relates to the field of engineering machinery, in particular to a steel plate bending detection device.

Background

In the engineering machinery field, a large amount of bent steel plates are often needed for welding, and for some non-standard steel plates to be bent, how to accurately detect the bent steel plates becomes a difficult problem, and in order to solve the problem, the application number is as follows: CN105880322B discloses a steel plate bending mechanism with a detection device, which solves the detection of bending steel plates to some extent, but has a small detection range.

Disclosure of Invention

The invention provides a steel plate bending detection device aiming at the technical problems, which comprises a lifting device, a roundness detection device, a surface detection device and a plane detection device, wherein the lifting device is fixedly arranged on the ground, the roundness detection device is fixedly arranged on the surface detection device, the surface detection device is fixedly arranged on the lifting device, and the plane detection device is fixedly arranged on the ground.

The lifting device comprises: lifting pedestal, lift cylinder, the lift slide rail, the lift head, the lift sliding sleeve, the end beam, accept the seat, the lead screw seat, the rand, the bayonet lock, the lift lead screw, the backing plate, lift base fixed mounting is subaerial, lift cylinder fixed mounting is on lifting pedestal, lift slide rail fixed mounting is on lifting pedestal, the first fixed mounting of lift is on lift cylinder, lift sliding sleeve fixed mounting is on the end beam, end beam fixed mounting is on accepting the seat, accept a fixed mounting on the lift head, lead screw seat fixed mounting is on accepting the seat, rand fixed mounting is on the lead screw seat, tight pole fixed mounting is on the bayonet lock, bayonet lock slidable mounting is on the lead screw seat, the lift lead screw rotates to be installed on the bayonet lock, backing plate fixed mounting is on the lift lead screw.

The roundness detection device includes: a roundness detection motor, a micrometer seat, a micrometer, an input shaft, a shaft sleeve, a large bearing, a small bearing, a base, a small bevel gear, a large bevel gear, a measuring head, a long shaft, a tightening ring, a positioning seat and a coupling, the unsettled installation of circularity detection motor, micrometer seat fixed mounting is on the base, micrometer fixed mounting is on the micrometer seat, input shaft fixed mounting is at the output of circularity detection motor, the axle sleeve rotates and installs on the input shaft, big bearing rotates and installs on the input shaft, little bearing rotates and installs on the major axis, base fixed mounting is on carrying the bottom plate, little bevel gear fixed mounting is on the major axis, big bevel gear fixed mounting is on the input shaft, measuring head fixed mounting is on screwing up the ring, the major axis rotates and installs on the base, it rotates and installs on the micrometer to screw up the ring, positioning seat fixed mounting is on the base, shaft coupling fixed mounting is on the major axis.

The surface detection apparatus includes: a conveying motor base, a conveying motor, a conveying bottom plate, a conveying belt, a clamping block, a conveying belt wheel base, a conveying belt wheel, a conveying guide rail, a conveying connecting plate, a detection table, a vertical belt wheel base, a vertical belt, a transverse motor, a transverse screw rod base, a vertical belt wheel, a vertical motor base, a transverse connecting plate, a transverse clamping block, a transverse screw rod, a vertical plate, a transverse guide rail, a vertical push rod, a detection rod and a surface detection head, wherein the conveying motor base is fixedly arranged on the conveying bottom plate, the conveying motor is fixedly arranged on the conveying motor base, the conveying bottom plate is fixedly arranged on a backing plate, the conveying belt is rotatably arranged on the conveying belt wheel base, the clamping block is fixedly arranged on the conveying belt, the conveying belt wheel base is fixedly arranged on the conveying motor base, the conveying guide rail is fixedly arranged on the conveying, detect platform fixed mounting on carrying the connecting plate, vertical pulley seat fixed mounting is on vertical motor cabinet, vertical area rotates and installs on vertical band pulley, horizontal motor fixed mounting is on horizontal lead screw seat, horizontal lead screw seat fixed mounting is on the riser, vertical band pulley rotates and installs on vertical pulley seat, vertical motor fixed mounting is on vertical motor cabinet, vertical motor cabinet fixed mounting is on the riser, horizontal connecting plate fixed mounting is on horizontal fixture block, horizontal fixture block fixed mounting is on vertical area, horizontal lead screw rotates and installs on horizontal lead screw seat, riser fixed mounting is on carrying the motor cabinet, transverse guide fixed mounting is on the riser, vertical push rod fixed mounting is on horizontal connecting plate, measuring bar fixed mounting is on vertical push rod, the first fixed mounting of surface detection is on the measuring bar.

The plane detection device includes: the supporting leg, a longitudinal screw rod motor, a longitudinal connecting rod seat, a longitudinal screw rod, a longitudinal connecting rod, a longitudinal sliding block, a transverse detection table, a pointer, a transverse ruler, a transverse adjusting cap, a transverse adjusting screw rod, a vertical adjusting screw rod, a peephole, a vertical ruler and a cutting sleeve, wherein the supporting leg is fixedly arranged on the ground, the longitudinal screw rod motor is fixedly arranged on the longitudinal screw rod seat, the longitudinal connecting rod seat is fixedly arranged on the supporting leg, the longitudinal screw rod is rotatably arranged on the longitudinal screw rod seat, the longitudinal connecting rod is rotatably arranged on the longitudinal connecting rod seat, the longitudinal sliding block is rotatably arranged on the longitudinal connecting rod, the transverse detection table is fixedly arranged on the longitudinal sliding block, the pointer is fixedly arranged on the transverse adjusting screw rod, the transverse ruler is fixedly arranged on the transverse detection table, the transverse adjusting, vertical adjusting screw rotates and installs on the cutting ferrule, peephole fixed mounting is on the cutting ferrule, and vertical chi fixed mounting is on horizontal adjusting screw, and cutting ferrule slidable mounting is on vertical chi.

Furthermore, the lifting slide rail and the lifting slide sleeve form sliding fit through the slide sleeve.

Furthermore, the lifting screw rod and the clamping ring form rotating fit through the shaft hole.

Furthermore, the input shaft and the large bearing form a rotating fit through the shaft hole.

Furthermore, the small bevel gear and the large bevel gear are meshed with each other to form a rotating fit.

Further, the conveying belt and the conveying belt wheel are wound through a belt to form rotating fit.

Furthermore, the transverse screw rod and the transverse screw rod seat form a rotating fit through the shaft hole.

Furthermore, the longitudinal screw rod and the longitudinal screw rod seat form a rotating fit through the shaft hole.

Compared with the prior art, the invention has the beneficial effects that: (1) the measurement heights of the surface detection device and the roundness detection device are integrally adjusted by using the lifting device, so that the operation is flexible; (2) the roundness, the surface and the plane of the bent steel plate are detected, so that the detection range is wide, and the detection precision is high; (3) the invention has high automation degree and greatly improves the detection precision and the detection efficiency.

Drawings

FIG. 1 is an overall schematic view of the present invention.

Fig. 2 is a schematic view of the lifting device of the present invention.

Fig. 3 is a schematic view of the roundness detection apparatus according to the present invention.

FIG. 4 is a schematic view of a surface inspection apparatus according to the present invention.

FIG. 5 is a schematic view of a flat panel inspection apparatus according to the present invention.

Reference numerals: 1-a lifting device; 2-roundness detection device; 3-a surface detection device; 4-a planar detection device; 101-a lifting base; 102-a lift cylinder; 103-lifting slide rails; 104-a lifting head; 105-a lifting sliding sleeve; 106-end beam; 107-bearing seat; 108-a screw base; 109-collar; 110-tightening rod; 111-bayonet lock; 112-lifting screw rod; 113-a backing plate; 201-roundness detection motor; 202-micrometer base; 203-micrometer; 204 — an input shaft; 205-a shaft sleeve; 206-large bearing; 207-small bearing; 208-a base; 209-bevel pinion; 210-large bevel gear; 211-a measuring head; 212-long axis; 213-tightening ring; 214-a positioning seat; 215-coupling; 301-conveying motor base; 302-a conveying motor; 303-a transport floor; 304-a conveyor belt; 305-a fixture block; 306-conveyor wheel seat; 307-a conveyor pulley; 308-a conveying guide rail; 309-conveying connecting plate; 310-detection station; 311-vertical pulley seat; 312-vertical zones; 313-transverse motor; 314-transverse screw base; 315-vertical pulley; 316-vertical motor; 317-vertical motor base; 318-transverse web; 319-horizontal dog; 320-a transverse screw rod; 321-a vertical plate; 322-transverse guide rails; 323-vertical push rod; 324-a detection rod; 325-surface detection head; 401-legs; 402-longitudinal screw motor; 403-longitudinal connecting rod seat; 404-longitudinal screw base; 405-a longitudinal screw; 406-longitudinal links; 407-longitudinal slide; 408-a transverse detection table; 409-a pointer; 410-a transverse ruler; 411-lateral adjustment cap; 412-lateral adjustment screw; 413-vertical adjusting screw; 414-peephole; 415-vertical ruler; 416-ferrule.

Detailed Description

The present invention will be further described with reference to specific embodiments, illustrative examples and illustrations of the invention herein are provided to explain the present invention and are not intended to limit the invention.

Example (b): as shown in fig. 1, 2, 3, 4, and 5, the steel plate bending detection device has a wide detection range and high detection accuracy by detecting the roundness, surface, and plane of a bent steel plate, in which a lifting device 1 is fixedly installed on the ground, a roundness detection device 2 is fixedly installed on a surface detection device 3, the surface detection device 3 is fixedly installed on the lifting device 1, and a plane detection device 4 is fixedly installed on the ground.

The specific structure of the lifting device 1 is shown in fig. 2, wherein the lifting base 101 is fixedly installed on the ground, the lifting cylinder 102 is fixedly installed on the lifting base 101, the lifting slide rail 103 is fixedly installed on the lifting base 101, the lifting head 104 is fixedly installed on the lifting cylinder 102, the lifting slide sleeve 105 is fixedly installed on the end beam 106, the end beam 106 is fixedly installed on the bearing seat 107, the bearing seat 107 is fixedly installed on the lifting head 104, the screw rod seat 108 is fixedly installed on the bearing seat 107, the clamping ring 109 is fixedly installed on the screw rod seat 108, the tightening rod 110 is fixedly installed on the clamping ring 109, the clamping pin 111 is slidably installed on the screw rod seat 108, the lifting screw rod 112 is rotatably installed on the clamping ring 109, the backing plate 113 is fixedly installed on the lifting screw rod 112, and by adjusting the lifting cylinder 102 on, wherein the lifting slide rail 103 and the lifting slide sleeve 105 perform an auxiliary lifting function, and the detection height 3 of the surface detection device is integrally adjusted through the four lifting devices 1.

The roundness detection device 2 has a specific structure as shown in fig. 3, wherein a roundness detection motor 201 is mounted in a suspended manner, a micrometer base 202 is fixedly mounted on a base 208, a micrometer 203 is fixedly mounted on the micrometer base 202, an input shaft 204 is fixedly mounted at an output end of the roundness detection motor 201, a shaft sleeve 205 is rotatably mounted on the input shaft 204, a large bearing 206 is rotatably mounted on the input shaft 204, a small bearing 207 is rotatably mounted on a long shaft 212, the base 208 is fixedly mounted on a conveying base plate 303, a small bevel gear 209 is fixedly mounted on the long shaft 212, a large bevel gear 210 is fixedly mounted on the input shaft 204, a measuring head 211 is fixedly mounted on a tightening ring 213, the long shaft 212 is rotatably mounted on the base 208, the tightening ring 213 is rotatably mounted on the micrometer 203, a positioning seat 214 is fixedly mounted on the base 208, a coupler 215 is fixedly mounted on the long shaft 212, and a steel plate with an arc is positioned by a positioning seat 214 on the roundness, the micrometer 203 is adjusted to measure the roundness of the steel plate by the contact of the measuring head 211 with the arc surface.

The specific structure of the surface detection device 3 is shown in fig. 4, wherein the conveying motor base 301 is fixedly installed on the conveying bottom plate 303, the conveying motor 302 is fixedly installed on the conveying motor base 301, the conveying bottom plate 303 is fixedly installed on the backing plate 113, the conveying belt 304 is rotatably installed on the conveying belt wheel 307, the fixture block 305 is fixedly installed on the conveying belt 304, the conveying belt wheel base 306 is fixedly installed on the conveying motor base 301, the conveying belt wheel 307 is rotatably installed on the conveying belt wheel base 306, the conveying guide rail 308 is fixedly installed on the conveying motor base 301, the conveying connecting plate 309 is fixedly installed on the fixture block 305, the detection platform 310 is fixedly installed on the conveying connecting plate 309, the vertical belt wheel base 311 is fixedly installed on the vertical motor base 317, the vertical belt 312 is rotatably installed on the vertical belt wheel 315, the horizontal motor 313 is fixedly installed on the horizontal screw rod base 314, the horizontal screw rod, vertical band pulley 315 rotates and installs on vertical band pulley seat 311, vertical motor 316 fixed mounting is on vertical motor cabinet 317, vertical motor cabinet 317 fixed mounting is on riser 321, horizontal connecting plate 318 fixed mounting is on horizontal fixture block 319, horizontal fixture block 319 fixed mounting is on vertical band 312, horizontal lead screw 320 rotates and installs on horizontal lead screw seat 314, riser 321 fixed mounting is on conveying motor seat 301, horizontal guide rail 322 fixed mounting is on riser 321, vertical push rod 323 fixed mounting is on horizontal connecting plate 318, detection rod 324 fixed mounting is on vertical push rod 323, surface detection head 325 fixed mounting is on detection rod 324, conveyer belt 304 through on surface detection device 3 drives measuring platform 310 and carries out the displacement, drive surface detection head 325 through vertical adjustment belt 312 and horizontal adjustment lead screw 320 and carry out the surface detection of the steel sheet of bending.

The specific structure of the plane detection device 4 is shown in fig. 5, wherein the supporting leg 401 is fixedly installed on the ground, the longitudinal screw rod motor 402 is fixedly installed on the longitudinal screw rod seat 404, the longitudinal connecting rod seat 403 is fixedly installed on the supporting leg 401, the longitudinal screw rod seat 404 is fixedly installed on the supporting leg 401, the longitudinal screw rod 405 is rotatably installed on the longitudinal screw rod seat 404, the longitudinal connecting rod 406 is rotatably installed on the longitudinal connecting rod seat 403, the longitudinal sliding block 407 is rotatably installed on the longitudinal connecting rod 406, the transverse detection platform 408 is fixedly installed on the longitudinal sliding block 407, the pointer 409 is fixedly installed on the transverse adjusting screw rod 412, the transverse ruler 410 is fixedly installed on the transverse detection platform 408, the transverse adjusting cap 411 is fixedly installed on the transverse adjusting screw rod 412, the transverse adjusting screw rod 412 is rotatably installed on the transverse detection platform 408, the vertical adjusting screw rod 413 is rotatably installed on the cutting sleeve 416, the, vertical ruler 415 is fixedly installed on transverse adjusting screw 412, clamping sleeve 416 is installed on vertical ruler 415 in a sliding mode, and transverse ruler 410 and vertical ruler 415 are used for detecting the plane of the steel plate by adjusting screw 412 on detection 4.

When the device is used, a steel plate bending detection device is placed in a quiet and tidy place, the lifting oil cylinder 102 on the lifting device 1 is adjusted, the lifting slide rail 103 and the lifting slide sleeve 105 perform auxiliary lifting action, the detection height 3 of the surface detection device is integrally adjusted through the four lifting devices 1, the steel plate with an arc is positioned through the positioning seat 214 on the roundness detection device 2, the measuring head 211 contacts the arc surface, the micrometer 203 is adjusted to measure the roundness of the steel plate, the conveying belt 304 on the surface detection device 3 drives the measuring table 310 to displace, the vertical adjusting belt 312 and the horizontal adjusting screw rod 320 drive the surface detection head 325 to perform surface detection of the bent steel plate, and the horizontal ruler 410 and the vertical ruler 415 are completed through adjusting the screw 412 on the detection device 4 to perform plane detection on the steel plate.

Claims (10)

1. The utility model provides a steel sheet detection device that bends, includes elevating gear 1, circularity detection device (2), surface detection device (3), plane detection device (4), its characterized in that:

the lifting device (1) comprises: a pad (113);

the roundness detection device (2) includes: a base (208);

the surface detection device (3) comprises: a transport floor (303);

the plane detection device (4) comprises: a leg (401);

the lifting device (1) is fixedly installed on the ground, the base (208) of the roundness detection device (2) is fixedly installed on the conveying bottom plate (303), the conveying bottom plate (303) is fixedly installed on the base plate (113), and the supporting legs (401) of the plane detection device (4) are fixedly installed on the ground.

2. The steel plate bending detection device according to claim 1, characterized in that: the lifting device (1) further comprises: the lifting device comprises a lifting base (101), a lifting oil cylinder (102), a lifting slide rail (103), a lifting head (104), a lifting sliding sleeve (105), an end beam (106), a bearing seat (107), a screw rod seat (108), a clamping ring (109), a clamping pin (111) and a lifting screw rod (112), wherein the lifting base (101) is fixedly arranged on the ground, the lifting oil cylinder (102) is fixedly arranged on the lifting base (101), the lifting slide rail (103) is fixedly arranged on the lifting base (101), the lifting head (104) is fixedly arranged on the lifting oil cylinder (102), the lifting sliding sleeve (105) is fixedly arranged on the end beam (106), the end beam (106) is fixedly arranged on the bearing seat (107), the bearing seat (107) is fixedly arranged on the lifting head (104), the screw rod seat (108) is fixedly arranged on the bearing seat (107), the clamping ring (109) is fixedly arranged on the screw rod seat (108), and a tightening rod (110) is fixedly arranged on the clamping ring, the bayonet lock (111) is slidably arranged on the screw rod seat (108), the lifting screw rod (112) is rotatably arranged on the collar (109), and the backing plate (113) is fixedly arranged on the lifting screw rod (112).

3. The steel plate bending detection device according to claim 1, characterized in that: the roundness detection device (2) further includes: the roundness detection device comprises a roundness detection motor (201), a micrometer seat (202), a micrometer (203), an input shaft (204), a shaft sleeve (205), a large bearing (206), a small bearing (207), a small bevel gear (209), a large bevel gear (210), a measuring head 211, a long shaft (212), a tightening ring (213), a positioning seat (214) and a coupling (215), wherein the roundness detection motor (201) is mounted in a suspended manner, the micrometer seat (202) is fixedly mounted on a base (208), the micrometer (203) is fixedly mounted on the micrometer seat (202), the input shaft (204) is fixedly mounted at the output end of the roundness detection motor (201), the shaft sleeve (205) is rotatably mounted on the input shaft (204), the large bearing (206) is rotatably mounted on the input shaft (204), the small bearing (207) is rotatably mounted on the long shaft (212), the small bevel gear (209) is fixedly mounted on the long shaft (212), and the large bevel gear (210) is fixedly mounted on the input shaft (204), the measuring head (211) is fixedly arranged on a screwing ring (213), the long shaft (212) is rotatably arranged on the base (208), the screwing ring (213) is rotatably arranged on the micrometer (203), the positioning seat (214) is fixedly arranged on the base (208), and the coupler (215) is fixedly arranged on the long shaft (212).

4. The steel plate bending detection device according to claim 1, characterized in that: the surface detection device (3) further comprises: a conveying motor base (301), a conveying motor (302), a conveying belt (304), a clamping block (305), a conveying belt wheel base (306), a conveying belt wheel (307), a conveying guide rail (308), a conveying connecting plate (309), a detection platform (310), a vertical belt wheel base (311), a vertical belt (312), a transverse motor (313), a transverse screw rod base (314), a vertical belt wheel (315), a vertical motor (316), a vertical motor base (317), a transverse connecting plate (318), a transverse clamping block (319), a transverse screw rod (320), a vertical plate (321), a transverse guide rail (322), a vertical push rod (323), a detection rod (324) and a surface detection head (325), wherein the conveying motor base (301) is fixedly arranged on the conveying bottom plate (303), the conveying motor (302) is fixedly arranged on the conveying motor base (301), the conveying belt (304) is rotatably arranged on the conveying belt wheel (307), the clamping block (305) is fixedly arranged on the conveying belt (304, a conveying belt wheel seat (306) is fixedly arranged on a conveying motor seat (301), a conveying belt wheel (307) is rotatably arranged on the conveying belt wheel seat (306), a conveying guide rail (308) is fixedly arranged on the conveying motor seat (301), a conveying connecting plate (309) is fixedly arranged on a clamping block (305), a detection platform (310) is fixedly arranged on a conveying connecting plate (309), a vertical belt wheel seat (311) is fixedly arranged on a vertical motor seat (317), a vertical belt (312) is rotatably arranged on a vertical belt wheel (315), a transverse motor (313) is fixedly arranged on a transverse screw rod seat (314), the transverse screw rod seat (314) is fixedly arranged on a vertical plate (321), the vertical belt wheel (315) is rotatably arranged on the vertical belt wheel seat (311), the vertical motor (316) is fixedly arranged on the vertical motor seat (317), the vertical motor seat (317) is fixedly arranged on the vertical plate (321), and the transverse connecting plate (318) is fixedly arranged on the transverse clamping block (319), the horizontal clamping block (319) is fixedly arranged on the vertical belt (312), the horizontal screw rod (320) is rotatably arranged on the horizontal screw rod seat (314), the vertical plate (321) is fixedly arranged on the conveying motor seat (301), the horizontal guide rail (322) is fixedly arranged on the vertical plate (321), the vertical push rod (323) is fixedly arranged on the horizontal connecting plate (318), the detection rod (324) is fixedly arranged on the vertical push rod (323), and the surface detection head (325) is fixedly arranged on the detection rod (324).

5. The steel plate bending detection device according to claim 1, characterized in that: the plane detection device (4) further comprises: a longitudinal screw rod motor (402), a longitudinal connecting rod seat (403), a longitudinal screw rod seat (404), a longitudinal screw rod (405), a longitudinal connecting rod (406), a longitudinal sliding block 407, a transverse detection platform (408), a pointer (409), a transverse ruler (410), a transverse adjustment cap (411), a transverse adjustment screw rod (412), a vertical adjustment screw rod (413), a peephole (414), a vertical ruler (415) and a ferrule (416), wherein the supporting leg (401) is fixedly arranged on the ground, the longitudinal screw rod motor (402) is fixedly arranged on the longitudinal screw rod seat (404), the longitudinal connecting rod seat (403) is fixedly arranged on the supporting leg (401), the longitudinal screw rod seat (404) is fixedly arranged on the supporting leg (401), the longitudinal screw rod (405) is rotatably arranged on the longitudinal screw rod seat (404), the longitudinal connecting rod (406) is rotatably arranged on the longitudinal connecting rod seat (403), the longitudinal sliding block (407) is rotatably arranged on the longitudinal connecting rod (406), the horizontal detection table (408) is fixedly installed on the longitudinal sliding block (407), the pointer (409) is fixedly installed on the horizontal adjusting screw rod (412), the horizontal ruler (410) is fixedly installed on the horizontal detection table (408), the horizontal adjusting cap (411) is fixedly installed on the horizontal adjusting screw rod (412), the horizontal adjusting screw rod (412) is rotatably installed on the horizontal detection table (408), the vertical adjusting screw rod (413) is rotatably installed on the clamping sleeve (416), the peephole (414) is fixedly installed on the clamping sleeve (416), the vertical ruler (415) is fixedly installed on the horizontal adjusting screw rod (412), and the clamping sleeve (416) is slidably installed on the vertical ruler (415).

6. The steel plate bending detection device according to claim 1, characterized in that: the lifting slide rail (103) and the lifting slide sleeve (105) form sliding fit through the slide sleeve.

7. The steel plate bending detection device according to claim 1, characterized in that: the lifting screw rod (112) and the clamping ring (109) form rotating fit through a shaft hole.

8. The steel plate bending detection device according to claim 1, characterized in that: the input shaft (204) and the large bearing (206) form a rotating fit through the shaft hole.

9. The steel plate bending detection device according to claim 1, characterized in that: the small bevel gear (209) and the large bevel gear (210) are meshed with each other to form a rotating fit.

10. The steel plate bending detection device according to claim 1, characterized in that: the conveying belt (304) and the conveying belt wheel (307) are wound through a belt to form a rotating fit, the transverse screw rod 320 and the transverse screw rod seat (314) form a rotating fit through a shaft hole, and the longitudinal screw rod (405) and the longitudinal screw rod seat (404) form a rotating fit through a shaft hole.

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