CN113701701A

CN113701701A - Roughness detection equipment for roller production and use method

Info

Publication number: CN113701701A
Application number: CN202110915130.8A
Authority: CN
Inventors: 周军; 杨志荣; 李红兵
Original assignee: Jiangsu Gongchang Roll Joint Stock Co ltd
Current assignee: Jiangsu Gongchang Roll Joint Stock Co ltd
Priority date: 2021-08-10
Filing date: 2021-08-10
Publication date: 2021-11-26
Anticipated expiration: 2041-08-10
Also published as: CN114739349A; CN114754727A; CN113701701B

Abstract

The invention discloses roughness detection equipment for roller production and a use method thereof, belonging to the technical field of roller production, the roughness detection equipment for roller production comprises a feeding frame, wherein the inner wall of the feeding frame is fixedly connected with a feeding motor, the output end of the feeding motor is provided with a threaded rod, the outer wall of the threaded rod is in threaded connection with a threaded slide block in sliding connection with the inner wall of the feeding frame, the side wall of the threaded slide block is movably connected with a swinging short plate in rotary connection with the inner wall of the feeding frame, the connecting part of the swinging short plate and the threaded slide block is provided with a short plate groove, the roughness detection equipment for roller production and the use method thereof are characterized in that through the arrangement of a guide chute, the movable slide block moves to drive a working rod connected with a clamping claw to slide along the guide chute in the guide chute plate, and because the middle part of the guide chute is arranged to be a V-shaped groove, so that the working rod can turn the clamping claw 180 degrees when sliding along the guide groove plate, and the automatic feeding operation can be realized.

Description

Roughness detection equipment for roller production and use method

Technical Field

The invention relates to the technical field of roller production, in particular to roughness detection equipment for roller production and a use method.

Background

The roller mainly comprises a roller body, a roller neck and a shaft head 3, wherein the roller body is the middle part of the roller which actually participates in rolling metal, the roller body is provided with a smooth cylindrical surface or a surface with a groove, the roller neck is arranged in a bearing and transmits rolling force to a rack through a bearing seat and a screw-down device, a transmission end shaft head is connected with a gear seat through a connecting shaft and transmits the rotating torque of a motor to the roller, the roller can be arranged in the rack of a rolling mill in a two-roller, three-roller, four-roller or multi-roller mode, and roughness detection operation needs to be carried out on the roller in order to ensure the working efficiency of the roller.

However, the existing roller roughness detection equipment has the problems of difficult feeding and incapability of carrying out roughness detection operation on rollers all over when in use, so that the detection efficiency is low, the detection is single, and the requirements of people cannot be met.

Disclosure of Invention

The invention aims to solve the problems that the feeding is difficult and the roughness detection operation cannot be performed on a roller in the prior art, and provides roughness detection equipment for roller production and a use method.

In order to achieve the purpose, the invention adopts the following technical scheme:

a roughness detection device for roller production comprises a feeding frame, wherein a feeding motor is fixedly connected to the inner wall of the feeding frame, a threaded rod is mounted at the output end of the feeding motor, a threaded slider in sliding connection with the inner wall of the feeding frame is in threaded connection with the outer wall of the threaded rod, a swinging short plate in screwed connection with the inner wall of the feeding frame is movably connected to the side wall of the threaded slider, a short plate groove is formed in the connecting part of the swinging short plate and the threaded slider, a swinging long plate is fixedly connected to one end, away from the short plate groove, of the swinging short plate, a sliding orifice plate is movably connected to the side wall of the top end of the swinging long plate, a moving slider is fixedly connected to the side wall of the sliding orifice plate, a limiting sliding chute fixedly connected with the inner wall of the feeding frame is slidably connected to the outer wall of the moving slider, a working rod is screwed to the side wall of the moving slider, and a clamping claw extending to the outer part of the feeding frame is fixedly connected to one end of the working rod, the utility model discloses a telescopic mechanism, including work pole, clamping jaw, material loading frame, slide frame, lateral wall fixedly connected with slip motor, slide frame, slide motor, outer wall threaded connection of slip screw rod has the slip slider, and the top of slip slider extends to the top fixedly connected with spliced pole of slip frame, the lateral wall fixedly connected with rotary mechanism of spliced pole, and rotary mechanism keeps away from the one end of spliced pole and installs telescopic mechanism.

Further, the swing short plate forms a swing structure through the threaded sliding block, the short plate groove and the feeding frame, the swing amplitude of the swing short plate is 120 degrees, the swing short plate and the swing long plate are connected in an integrated mode, and the central axis of the swing short plate is parallel to the central axis of the swing long plate.

Further, remove the slider and pass through to constitute sliding construction between swing long slab and the slip orifice plate and the spacing spout, the working beam constitutes swing structure through removing between slider and the direction spout, and the direction spout middle part is "V" type groove, the axis of direction spout coincides mutually with the rotation center of swing long slab, the center of pressing from both sides tight claw coincides mutually with the work center that detects the base.

Further, rotary mechanism includes rotating electrical machines, rolling disc, guide post, lift orifice plate, lift spout, lift post, flexible post, guide block and direction recess, rotary mechanism's inner wall fixedly connected with rotating electrical machines, and the output of rotating electrical machines installs the rolling disc, the edge fixedly connected with guide post of one end that rotating electrical machines was kept away from to the rolling disc, and the outer wall swing joint of guide post has the lift orifice plate with rotary mechanism inner wall sliding connection, the lift spout has been seted up with the position of being connected of guide post to the lift orifice plate, the top fixedly connected with lift post of lift orifice plate, and the top of lift post runs through there is flexible post, the one end of flexible post connect soon with telescopic machanism outer wall fixed connection's guide block, and the inner wall of guide block runs through there is the direction recess.

Furthermore, the lifting pore plate forms a lifting structure through the guide post, the lifting sliding groove and the rotating mechanism, the lifting sliding groove is semicircular, and the radius of the lifting sliding groove is equal to that of the rotating disc.

Furthermore, the guide block forms a sliding structure through the lifting column and the telescopic column and the guide groove, the guide groove is semicircular, and the radius of the guide groove is equal to the length of the telescopic column.

Further, telescopic machanism includes flexible motor, rotor plate, motion frid, flexible baffle, connects baffle, motion baffle, expanding spring, pressure gauge and detects the head, telescopic machanism's the flexible motor of inner wall fixedly connected with, and the output of flexible motor installs the rotor plate, the one end that telescopic machanism was kept away from to the rotor plate has connect the motion frid soon, and one side sliding connection that the rotor plate was kept away from to the motion frid has the flexible baffle with telescopic machanism inner wall sliding connection, the lateral wall fixedly connected with of flexible baffle connects the baffle, and connects the baffle and keep away from the one end fixedly connected with of flexible baffle and extend to the outside motion baffle of telescopic machanism, the inside penetration of motion baffle has expanding spring, and expanding spring's one end fixedly connected with pressure gauge, the one end fixedly connected with that the pressure gauge was kept away from to expanding spring detects the head.

Further, flexible baffle passes through the rotor plate and constitutes extending structure between motion frid and the telescopic machanism, and the flexible length of flexible baffle is the twice of rotor plate length, the axis of connecting the baffle is parallel with the axis of rotor plate.

Furthermore, flexible baffle, connection baffle and motion baffle are connected as an organic whole, and the pressure gauge passes through to constitute extending structure between motion baffle and the telescopic machanism, the axis of detecting the head coincides mutually with the diameter of direction recess.

The scheme also provides a use method of the roughness detection equipment for roller production, and the method comprises the following steps:

s1, when the device is used, firstly, a roller to be detected is subjected to feeding operation, in a feeding frame, a feeding motor works to drive a threaded slide block to slide along the inner wall of the feeding frame through a threaded rod, so that the threaded slide block moves to drive a swinging short plate to swing through a short plate groove, the swinging short plate swings to drive a swinging long plate to swing at the same angle, the swinging long plate moves to drive a moving slide block to horizontally slide along a limiting slide groove under the assistance of a sliding orifice plate, so that the moving slide block moves to drive a working rod connected with a clamping claw to slide along a guide slide groove in a guide groove plate, and the middle part of the guide slide groove is provided with a V-shaped groove, so that the clamping claw is overturned by 180 degrees when the working rod slides along the guide groove plate, the roller to be detected is transferred to a detection base, and the feeding operation of the roller to be detected is realized;

s2, then, detecting the rollers with different diameters, wherein in the telescopic mechanism, a telescopic motor works to drive a rotating plate to rotate, the rotating plate rotates to drive a telescopic guide plate to slide along the inner wall of the telescopic mechanism through a moving groove plate, so that the telescopic guide plate moves to drive a moving guide plate to move through a connecting guide plate, the moving guide plate moves to drive a detecting head connected with a pressure gauge to move, and the detecting operation of the rollers with different diameters is realized through the telescopic movement of the detecting head;

s3, detecting the rollers with different lengths, wherein in the sliding frame, a sliding motor works to drive a sliding slide block to slide along the inner wall of the sliding frame through a sliding screw rod, the sliding slide block drives a connecting column to move, and the connecting column drives a telescopic mechanism to move through a rotating mechanism, so that the detection operation of the rollers with different lengths is realized;

s4, finally, detecting different angles of the roller, in the rotating mechanism, the rotating motor works to drive the guide posts to rotate through the rotating disc, the guide posts rotate to drive the lifting pore plates to slide through the lifting sliding grooves, so that the lifting pore plates move to drive the telescopic posts to move through the lifting posts, the telescopic posts move to drive the guide blocks to slide along the guide grooves, and the detection operation of different angles of the roller is realized.

Compared with the prior art, the invention provides roughness detection equipment for roller production, which has the following beneficial effects:

1. according to the roughness detection equipment for roller production, the swinging long plate is arranged, the threaded sliding block moves in the feeding frame, the swinging short plate is driven to swing through the short plate groove, the swinging short plate swings to drive the swinging long plate to swing at the same angle, and the swinging long plate moves to drive the moving sliding block to horizontally slide along the limiting sliding groove under the assistance of the sliding hole plate, so that the control operation of the movement of the moving sliding block is realized;

2. according to the roughness detection device for roller production, the guide sliding groove is arranged, the movable sliding block moves in the feeding frame to drive the working rod connected with the clamping claw to slide along the guide sliding groove in the guide groove plate, and the V-shaped groove is arranged in the middle of the guide sliding groove, so that the clamping claw is turned over by 180 degrees when the working rod slides along the guide groove plate, and automatic feeding operation is realized;

3. according to the roughness detection device for roller production, the lifting pore plate is arranged, in the rotating mechanism, the rotating disc rotates to drive the guide post to rotate, the guide post rotates to drive the lifting pore plate to slide through the lifting sliding groove, so that the lifting pore plate moves to drive the telescopic post to move through the lifting post, the telescopic post moves to drive the guide block to slide along the guide groove, and detection operation of different angles of the roller is realized;

4. this roughness measurement equipment is used in roll production through setting up flexible baffle, and in telescopic machanism, the rotor plate rotates and drives flexible baffle through the motion frid and slide to make flexible baffle motion drive the motion baffle motion through connecting the baffle, the motion baffle motion drives the first motion of detection that is connected with the pressure gauge, through the concertina movement who detects the head, realizes the detection operation to the roll of different diameters.

Drawings

Fig. 1 is a schematic view of the overall structure of the roughness detection device for roll production according to the present invention.

Fig. 2 is a schematic view of a first view structure of a feeding frame of the roughness detecting device for roll production according to the present invention.

Fig. 3 is a second view structural diagram of a feeding frame of the roughness detecting device for roll production according to the present invention.

Fig. 4 is a schematic structural diagram of a feeding frame part of the roughness detection device for roll production according to the present invention.

FIG. 5 is a schematic view of the internal connection structure of the sliding frame of the roughness detecting device for roll production according to the present invention.

Fig. 6 is a schematic view of a first view structure of a rotating mechanism of the roughness detecting apparatus for roll production according to the present invention.

Fig. 7 is a second view structural diagram of a rotating mechanism of the roughness detecting device for roll production according to the present invention.

Fig. 8 is a schematic view of a first view structure of a telescoping mechanism of the roughness detecting device for roll production according to the present invention.

Fig. 9 is a schematic view of a second perspective structure of a telescoping mechanism of the roughness detecting device for roll production according to the present invention.

In the figure: 1. a feeding frame; 2. a feeding motor; 3. a threaded rod; 4. a threaded slider; 5. swinging the short plate; 6. a short plate groove; 7. swinging the long plate; 8. sliding the orifice plate; 9. moving the slide block; 10. limiting and sliding; 11. a working lever; 12. a clamping jaw; 13. a guide groove plate; 14. a guide chute; 15. detecting a base; 16. a slide frame; 17. a slide motor; 18. a sliding screw; 19. a sliding block; 20. connecting columns; 21. a rotation mechanism; 2101. a rotating electric machine; 2102. rotating the disc; 2103. a guide post; 2104. lifting the pore plate; 2105. a lifting chute; 2106. a lifting column; 2107. a telescopic column; 2108. a guide block; 2109. a guide groove; 22. a telescoping mechanism; 2201. a telescopic motor; 2202. a rotating plate; 2203. a moving trough plate; 2204. a telescopic guide plate; 2205. connecting the guide plate; 2206. a moving guide plate; 2207. a tension spring; 2208. a pressure gauge; 2209. and a detection head.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-9, a roughness detecting device for roller production comprises a feeding frame 1, a feeding motor 2 fixedly connected to the inner wall of the feeding frame 1, a threaded rod 3 installed at the output end of the feeding motor 2, a threaded slider 4 slidably connected to the inner wall of the feeding frame 1 and threaded to the outer wall of the threaded rod 3, a swinging short plate 5 rotatably connected to the inner wall of the feeding frame 1 and movably connected to the side wall of the threaded slider 4, a short plate groove 6 formed at the connection portion of the swinging short plate 5 and the threaded slider 4, a swinging long plate 7 fixedly connected to the end of the swinging short plate 5 far from the short plate groove 6, a sliding orifice plate 8 movably connected to the side wall of the top end of the swinging long plate 7, a moving slider 9 fixedly connected to the side wall of the sliding orifice plate 8, a limit chute 10 fixedly connected to the inner wall of the feeding frame 1 and slidably connected to the outer wall of the moving slider 9, a working rod 11 rotatably connected to the side wall of the moving slider 9, one end of the working rod 11 is fixedly connected with a clamping claw 12 extending to the outside of the feeding frame 1, one end of the working rod 11 far away from the clamping claw 12 is movably connected with a guide groove plate 13 fixedly connected with the inner wall of the feeding frame 1, and the connecting part of the guide chute plate 13 and the working rod 11 is provided with a guide chute 14, the side wall of the feeding frame 1 is fixedly connected with a detection base 15, and one side of the detection base 15 far away from the feeding frame 1 is fixedly connected with a sliding frame 16, the inner wall of the sliding frame 16 is fixedly connected with a sliding motor 17, and the output end of the sliding motor 17 is provided with a sliding screw 18, the outer wall of the sliding screw 18 is connected with a sliding slide block 19 in a threaded manner, and the top end of the sliding block 19 extends to the upper part of the sliding frame 16 and is fixedly connected with a connecting column 20, the side wall of the connecting column 20 is fixedly connected with a rotating mechanism 21, and one end of the rotating mechanism 21 far away from the connecting column 20 is provided with a telescopic mechanism 22.

Further, swing structure is constituted between short board 5 passes through threaded slider 4 and short board recess 6 and the material loading frame 1 to the swing, and the amplitude of oscillation of the short board 5 of swing is 120, and the short board 5 of swing is connected with the long board 7 formula as an organic whole with the swing, and the axis of the short board 5 of swing parallels with the axis of the long board 7 of swing, be favorable to threaded slider 4 to move and drive the swing of short board 5 through short board recess 6, the swing of the short board 5 of swing drives the swing of long board 7 with the angle, the realization is to the wobbling control operation of the long board 7 of swing.

Further, the movable sliding block 9 forms a sliding structure with the limiting sliding groove 10 through the swinging long plate 7 and the sliding pore plate 8, the working rod 11 forms a swinging structure with the guiding sliding groove 14 through the movable sliding block 9, the middle part of the guiding sliding groove 14 is a 'V' -shaped groove, the central axis of the guiding sliding groove 14 coincides with the rotation center of the swinging long plate 7, the center of the clamping claw 12 coincides with the working center of the detection base 15, and the swinging long plate 7 is favorable for driving the movable sliding block 9 to horizontally slide along the limiting sliding groove 10 under the assistance of the sliding pore plate 8, so that the movable sliding block 9 drives the working rod 11 connected with the clamping claw 12 to slide along the guiding sliding groove 14 in the guiding groove plate 13, and the working rod 11 is driven to rotate 180 degrees through the 'V' -shaped groove of the guiding sliding groove 14, and the feeding operation of the roller to be detected is realized.

Further, the rotating mechanism 21 comprises a rotating motor 2101, a rotating disc 2102, a guide post 2103, a lifting orifice plate 2104, a lifting chute 2105, a lifting post 2106, a telescopic post 2107, a guide block 2108 and a guide groove 2109, the inner wall of the rotating mechanism 21 is fixedly connected with the rotating motor 2101, the rotating disc 2102 is installed at the output end of the rotating motor 2101, the guide post 2103 is fixedly connected with the edge of one end of the rotating disc 2102 far away from the rotating motor 2101, the outer wall of the guide post 2103 is movably connected with the lifting orifice plate 2104 in sliding connection with the inner wall of the rotating mechanism 21, the lifting chute 2105 is arranged at the connection part of the lifting orifice plate 2104 and the guide post 2103, the lifting post 2106 is fixedly connected with the top end of the lifting post 2106, the telescopic post 2107 penetrates through the telescopic post 2107, one end of the telescopic post 2107 is connected with the guide block 2108 fixedly connected with the outer wall of the telescopic mechanism 22 in a rotating manner, and the guide groove 2109 penetrates through the inner wall of the guide block 2108, through setting up rotary mechanism 21, be favorable to the guide post 2103 to rotate and drive lift orifice plate 2104 slip through lift spout 2105 to make the motion of lift orifice plate 2104 drive flexible post 2107 through lift post 2106 and move, flexible post 2107 moves and drives guide block 2108 and slide along guide groove 2109, realize the detection operation to the different angles of roll.

Further, lift orifice plate 2104 passes through to constitute between guide post 2103 and lift spout 2105 and the rotary mechanism 21 and goes up and down the structure, and lift spout 2105 is half circular, and the radius of lift spout 2105 equals with the radius of rolling disc 2102, is favorable to rolling disc 2102 to rotate and drives guide post 2103 and rotate, and guide post 2103 rotates and drives lift orifice plate 2104 through lift spout 2105 and slide, is half circular through setting up lift spout 2105, is favorable to lift orifice plate 2104 to stabilize the lift operation.

Further, the guide block 2108 forms a sliding structure through the lifting column 2106 and the telescopic column 2107 with the guide groove 2109, and the guide groove 2109 is semicircular, and the radius of the guide groove 2109 is equal to the length of the telescopic column 2107, so that the movement of the lifting orifice plate 2104 drives the telescopic column 2107 to move through the lifting column 2106, and the movement of the telescopic column 2107 drives the guide block 2108 to slide along the guide groove 2109, thereby realizing the control operation of the movement of the guide block 2108.

Further, the telescopic mechanism 22 comprises a telescopic motor 2201, a rotating plate 2202, a moving slot plate 2203, a telescopic guide plate 2204, a connecting guide plate 2205, a moving guide plate 2206, a telescopic spring 2207, a pressure gauge 2208 and a detection head 2209, wherein the inner wall of the telescopic mechanism 22 is fixedly connected with the telescopic motor 2201, the rotating plate 2202 is installed at the output end of the telescopic motor 2201, one end of the rotating plate 2202, which is far away from the telescopic motor 2201, is screwed with the moving slot plate 2203, one side of the moving slot plate 2203, which is far away from the rotating plate 2202, is slidably connected with the telescopic guide plate 2204, which is slidably connected with the inner wall of the telescopic mechanism 22, the side wall of the telescopic guide plate 2204 is fixedly connected with the connecting guide plate 2205, one end of the connecting guide plate 2205, which is far away from the telescopic guide plate 2204, is fixedly connected with the moving 2206, which extends to the outside of the telescopic mechanism 22, the pressure gauge 2207 penetrates through the inside the moving guide plate 2206, one end of the telescopic spring 2207 is fixedly connected with the pressure gauge 2208, one end of the telescopic spring 2207, one end of the detecting head 2209 is fixedly connected with the end of the detecting head, by arranging the telescopic mechanism 22, the rotating plate 2202 is facilitated to rotate, the moving groove plate 2203 drives the telescopic guide plate 2204 to slide, so that the telescopic guide plate 2204 moves to drive the moving guide plate 2206 to move through the connecting guide plate 2205, the moving guide plate 2206 moves to drive the detection head 2209 connected with the pressure gauge 2208 to move, and the detection operation of rollers with different diameters is realized through the telescopic movement of the detection head 2209.

Further, the telescopic guide plate 2204 forms a telescopic structure through the rotating plate 2202 and the moving groove plate 2203 and the telescopic mechanism 22, the telescopic length of the telescopic guide plate 2204 is twice the length of the rotating plate 2202, the central axis of the connecting guide plate 2205 is parallel to the central axis of the rotating plate 2202, the rotating plate 2202 can rotate, the moving groove plate 2203 drives the telescopic guide plate 2204 to slide along the inner wall of the telescopic mechanism 22, and the control operation of the movement of the telescopic guide plate 2204 is achieved.

Further, flexible baffle 2204, connecting guide 2205 and motion baffle 2206 are connected as an organic whole, and pressure gauge 2208 constitutes extending structure through between motion baffle 2206 and the telescopic machanism 22, and the axis of detecting head 2209 coincides with the diameter of guide recess 2109, is favorable to flexible baffle 2204 motion to drive the motion baffle 2206 motion through connecting guide 2205, realizes the control operation to detecting head 2209 motion.

The embodiment also provides a use scheme of the roughness detection equipment for roll production, and the device is adopted, and the method comprises the following steps:

s1, when using the device, first, a roll to be inspected is subjected to a feeding operation, in the feeding frame 1, the feeding motor 2 works to drive the threaded slide block 4 to slide along the inner wall of the feeding frame 1 through the threaded rod 3, so that the threaded slide block 4 moves to drive the swing short plate 5 to swing through the short plate groove 6, the swing short plate 5 swings to drive the swing long plate 7 to swing at the same angle, the swing long plate 7 moves to drive the movable slide block 9 to horizontally slide along the limit sliding groove 10 under the assistance of the sliding pore plate 8, so that the moving slide 9 moves to slide the working rod 11 connected with the clamping jaw 12 along the guide runner 14 in the guide channel plate 13, the middle part of the guide chute 14 is provided with a V-shaped groove, so that the clamping claw 12 is turned over by 180 degrees when the working rod 11 slides along the guide chute plate 13, the roller to be detected is transferred to the detection base 15, and the feeding operation of the roller to be detected is realized;

s2, then, detecting the rollers with different diameters, in the telescopic mechanism 22, the telescopic motor 2201 works to drive the rotating plate 2202 to rotate, the rotating plate 2202 rotates to drive the telescopic guide plate 2204 to slide along the inner wall of the telescopic mechanism 22 through the moving groove plate 2203, so that the telescopic guide plate 2204 moves to drive the moving guide plate 2206 through the connecting guide plate 2205, the moving guide plate 2206 moves to drive the detecting head 2209 connected with the pressure gauge 2208 to move, and the detecting operation of the rollers with different diameters is realized through the telescopic movement of the detecting head 2209;

s3, detecting the rollers with different lengths, wherein in the sliding frame 16, the sliding motor 17 drives the sliding slider 19 to slide along the inner wall of the sliding frame 16 through the sliding screw 18, the sliding slider 19 drives the connecting column 20 to move, and the connecting column 20 drives the telescopic mechanism 22 to move through the rotating mechanism 21 to realize the detection of the rollers with different lengths;

s4, finally, detecting different angles of the roller, in the rotating mechanism 21, the rotating motor 2101 works to drive the guide posts 2103 to rotate through the rotating disc 2102, the guide posts 2103 rotate to drive the lifting pore plate 2104 to slide through the lifting sliding grooves 2105, so that the lifting pore plate 2104 moves to drive the telescopic posts 2107 to move through the lifting posts 2106, and the telescopic posts 2107 move to drive the guide blocks 2108 to slide along the guide grooves 2109, thereby realizing the detecting operation of different angles of the roller.

The working principle of the invention is as follows: when the roughness detection equipment for roller production is used, firstly, a roller to be detected is subjected to feeding operation, in a feeding frame 1, a feeding motor 2 works to drive a threaded slider 4 to slide along the inner wall of the feeding frame 1 through a threaded rod 3, so that the threaded slider 4 moves to drive a swinging short plate 5 to swing through a short plate groove 6, the swinging short plate 5 swings to drive a swinging long plate 7 to swing at the same angle, the swinging long plate 7 moves to drive a moving slider 9 to horizontally slide along a limiting sliding groove 10 under the assistance of a sliding orifice plate 8, so that the moving slider 9 moves to drive a working rod 11 connected with a clamping claw 12 to slide along a guide sliding groove 14 in a guide groove plate 13, and as the middle part of the guide sliding groove 14 is set to be a V-shaped groove, the clamping claw 12 is overturned by 180 degrees when the working rod 11 slides along the guide groove plate 13, the roller to be detected is transferred to a detection base 15, the feeding operation of the roller to be detected is realized;

then, detection operation is carried out on the rollers with different diameters, in the telescopic mechanism 22, a telescopic motor 2201 works to drive a rotating plate 2202 to rotate, the rotating plate 2202 rotates to drive a telescopic guide plate 2204 to slide along the inner wall of the telescopic mechanism 22 through a moving groove plate 2203, so that the telescopic guide plate 2204 moves to drive a moving guide plate 2206 to move through a connecting guide plate 2205, the moving guide plate 2206 moves to drive a detection head 2209 connected with a pressure gauge 2208 to move, and the detection operation on the rollers with different diameters is realized through the telescopic movement of the detection head 2209;

then, detection operation is carried out on rollers with different lengths, in the sliding frame 16, the sliding motor 17 works to drive the sliding slide block 19 to slide along the inner wall of the sliding frame 16 through the sliding screw 18, the sliding slide block 19 moves to drive the connecting column 20 to move, and the connecting column 20 moves to drive the telescopic mechanism 22 to move through the rotating mechanism 21, so that the detection operation on the rollers with different lengths is realized;

finally, the detection operation is carried out on different angles of the roller, in the rotating mechanism 21, the rotating motor 2101 works to drive the guide posts 2103 to rotate through the rotating disc 2102, the guide posts 2103 rotate to drive the lifting pore plate 2104 to slide through the lifting sliding grooves 2105, so that the lifting pore plate 2104 moves to drive the telescopic posts 2107 to move through the lifting posts 2106, and the telescopic posts 2107 move to drive the guide blocks 2108 to slide along the guide grooves 2109, thereby realizing the detection operation on different angles of the roller.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a roughness measurement equipment for roll production, includes material loading frame (1), its characterized in that: the inner wall of the feeding frame (1) is fixedly connected with a feeding motor (2), the output end of the feeding motor (2) is provided with a threaded rod (3), the outer wall of the threaded rod (3) is in threaded connection with a threaded slider (4) in sliding connection with the inner wall of the feeding frame (1), the side wall of the threaded slider (4) is movably connected with a swinging short plate (5) in rotary connection with the inner wall of the feeding frame (1), the connecting part of the swinging short plate (5) and the threaded slider (4) is provided with a short plate groove (6), one end of the swinging short plate (5) far away from the short plate groove (6) is fixedly connected with a swinging long plate (7), the top end side wall of the swinging long plate (7) is movably connected with a sliding orifice plate (8), the side wall of the sliding orifice plate (8) is fixedly connected with a moving slider (9), and the outer wall of the moving slider (9) is in sliding connection with a limiting sliding chute (10) fixedly connected with the inner wall of the feeding frame (1), the side wall of the movable sliding block (9) is screwed with a working rod (11), one end of the working rod (11) is fixedly connected with a clamping claw (12) extending to the outside of the feeding frame (1), one end of the working rod (11) far away from the clamping claw (12) is movably connected with a guide groove plate (13) fixedly connected with the inner wall of the feeding frame (1), a guide sliding groove (14) is formed in the connecting part of the guide groove plate (13) and the working rod (11), the side wall of the feeding frame (1) is fixedly connected with a detection base (15), one side of the detection base (15) far away from the feeding frame (1) is fixedly connected with a sliding frame (16), the inner wall of the sliding frame (16) is fixedly connected with a sliding motor (17), the output end of the sliding motor (17) is provided with a sliding screw rod (18), the outer wall of the sliding screw rod (18) is in threaded connection with a sliding block (19), and the top end of the sliding slide block (19) extends to the upper part of the sliding frame (16) and is fixedly connected with a connecting column (20), the side wall of the connecting column (20) is fixedly connected with a rotating mechanism (21), and one end, far away from the connecting column (20), of the rotating mechanism (21) is provided with a telescopic mechanism (22).

2. The roughness detecting device for roll production according to claim 1, wherein: swing structure is formed between short board (5) and material loading frame (1) through screw slider (4) and short board recess (6) in the swing, and the amplitude of swing of short board (5) is 120, short board (5) and the long board (7) of swing formula are connected as an organic whole in the swing, and the axis of the short board (5) of swing parallels with the axis of the long board (7) of swing.

3. The roughness detecting device for roll production according to claim 1, wherein: remove slider (9) and constitute sliding construction between through swing long slab (7) and slip orifice plate (8) and spacing spout (10), working lever (11) constitute swinging construction between through removing slider (9) and direction spout (14), and direction spout (14) middle part is "V" type groove, the axis of direction spout (14) coincides mutually with the center of rotation of swing long slab (7), the center of pressing from both sides tight claw (12) coincides mutually with the center of operation that detects base (15).

4. The roughness detecting device for roll production according to claim 1, wherein: the rotating mechanism (21) comprises a rotating motor (2101), a rotating disc (2102), a guide post (2103), a lifting pore plate (2104), a lifting sliding groove (2105), a lifting post (2106), a telescopic post (2107), a guide block (2108) and a guide groove (2109), wherein the inner wall of the rotating mechanism (21) is fixedly connected with the rotating motor (2101), the rotating disc (2102) is installed at the output end of the rotating motor (2101), the edge of one end, far away from the rotating motor (2101), of the rotating disc (2102) is fixedly connected with the guide post (2103), the outer wall of the guide post (2103) is movably connected with the lifting pore plate (2104) in sliding connection with the inner wall of the rotating mechanism (21), the lifting sliding groove (2105) is formed at the connecting part of the lifting pore plate (2104) and the guide post (2103), the top end of the lifting pore plate (2104) is fixedly connected with the lifting post (2106), and the telescopic post (2107) penetrates through the top end of the lifting pore plate (2106), one end of the telescopic column (2107) is screwed with a guide block (2108) fixedly connected with the outer wall of the telescopic mechanism (22), and a guide groove (2109) penetrates through the inner wall of the guide block (2108).

5. The roughness detecting device for roll production according to claim 4, wherein: the lifting pore plate (2104) forms a lifting structure through the guide posts (2103), the lifting sliding groove (2105) and the rotating mechanism (21), the lifting sliding groove (2105) is semicircular, and the radius of the lifting sliding groove (2105) is equal to that of the rotating disc (2102).

6. The roughness detecting device for roll production according to claim 4, wherein: the guide block (2108) forms a sliding structure through the lifting column (2106), the telescopic column (2107) and the guide groove (2109), the guide groove (2109) is semicircular, and the radius of the guide groove (2109) is equal to the length of the telescopic column (2107).

7. The roughness detecting device for roll production according to claim 1, wherein: the telescopic mechanism (22) comprises a telescopic motor (2201), a rotating plate (2202), a moving groove plate (2203), a telescopic guide plate (2204), a connecting guide plate (2205), a moving guide plate (2206), a telescopic spring (2207), a pressure gauge (2208) and a detection head (2209), wherein the inner wall of the telescopic mechanism (22) is fixedly connected with the telescopic motor (2201), the rotating plate (2202) is installed at the output end of the telescopic motor (2201), one end, far away from the telescopic motor (2201), of the rotating plate (2202) is screwed with the moving groove plate (2203), one side, far away from the rotating plate (2202), of the moving groove plate (2203) is slidably connected with the telescopic guide plate (2204) slidably connected with the inner wall of the telescopic mechanism (22), the side wall of the telescopic guide plate (2204) is fixedly connected with the connecting guide plate (2205), and one end, far away from the telescopic guide plate (2204), of the connecting guide plate (2205) is fixedly connected with the moving guide plate (2206) extending to the outside the telescopic mechanism (22), an extension spring (2207) penetrates through the inside of the moving guide plate (2206), a pressure gauge (2208) is fixedly connected to one end of the extension spring (2207), and a detection head (2209) is fixedly connected to one end, far away from the pressure gauge (2208), of the extension spring (2207).

8. The roughness detecting device for roll production according to claim 7, wherein: the telescopic guide plate (2204) forms a telescopic structure with the telescopic mechanism (22) through the rotating plate (2202) and the moving groove plate (2203), the telescopic length of the telescopic guide plate (2204) is twice of the length of the rotating plate (2202), and the central axis of the connecting guide plate (2205) is parallel to the central axis of the rotating plate (2202).

9. The roughness detecting device for roll production according to claim 7, wherein: the telescopic guide plate (2204), the connecting guide plate (2205) and the moving guide plate (2206) are connected in an integrated mode, the pressure gauge (2208) forms a telescopic structure through the moving guide plate (2206) and the telescopic mechanism (22), and the central axis of the detection head (2209) is coincided with the diameter of the guide groove (2109).

10. The use method of the roughness detection equipment for roller production is characterized by comprising the following steps:

s1, when the device is used, firstly, a roller to be detected is subjected to feeding operation, in a feeding frame (1), a feeding motor (2) works to drive a threaded slide block (4) to slide along the inner wall of the feeding frame (1) through a threaded rod (3), so that the threaded slide block (4) moves to drive a swinging short plate (5) to swing through a short plate groove (6), the swinging short plate (5) swings to drive a swinging long plate (7) to swing at the same angle, the swinging long plate (7) moves to drive a moving slide block (9) to horizontally slide along a limiting slide groove (10) under the assistance of a sliding orifice plate (8), so that the moving slide block (9) moves to drive a working rod (11) connected with a clamping claw (12) to slide along a guide slide groove (14) in a guide groove plate (13), and the middle part of the guide slide groove (14) is set to be a V-shaped groove, so that the working rod (11) overturns the clamping claw (12) for 180 degrees when sliding along the guide groove (13), transferring the roller to be detected to a detection base (15) to realize the feeding operation of the roller to be detected;

s2, then, detecting the rollers with different diameters, in the telescopic mechanism (22), a telescopic motor (2201) works to drive a rotating plate (2202) to rotate, the rotating plate (2202) rotates to drive a telescopic guide plate (2204) to slide along the inner wall of the telescopic mechanism (22) through a moving groove plate (2203), so that the telescopic guide plate (2204) moves to drive a moving guide plate (2206) through a connecting guide plate (2205), the moving guide plate (2206) moves to drive a detecting head (2209) connected with a pressure gauge (2208) to move, and the detecting operation of the rollers with different diameters is realized through the telescopic movement of the detecting head (2209);

s3, detecting the rollers with different lengths, wherein in the sliding frame (16), the sliding motor (17) works to drive the sliding block (19) to slide along the inner wall of the sliding frame (16) through the sliding screw (18), the sliding block (19) drives the connecting column (20) to move, the connecting column (20) moves to drive the telescopic mechanism (22) to move through the rotating mechanism (21), and the detection operation of the rollers with different lengths is realized;

s4, finally, detecting different angles of the roller, in the rotating mechanism (21), the rotating motor (2101) works to drive the guide post (2103) to rotate through the rotating disc (2102), the guide post (2103) rotates to drive the lifting pore plate (2104) to slide through the lifting sliding chute (2105), so that the lifting pore plate (2104) moves to drive the telescopic post (2107) to move through the lifting post (2106), and the telescopic post (2107) moves to drive the guide block (2108) to slide along the guide groove (2109), thereby realizing the detecting operation of different angles of the roller.