CN117146763A

CN117146763A - Textile rubber roller detection device

Info

Publication number: CN117146763A
Application number: CN202311150833.1A
Authority: CN
Inventors: 卓自鹏; 张超
Original assignee: Anhui Lanxiang Intelligent Manufacturing Co ltd
Current assignee: Anhui Lanxiang Intelligent Manufacturing Co ltd
Priority date: 2023-09-07
Filing date: 2023-09-07
Publication date: 2023-12-01

Abstract

The invention provides a textile rubber roller detection device, belongs to the technical field of textile machinery, and is used for solving the technical problems that the continuity detection cannot be carried out and the detection efficiency is low when the surface roundness and the flatness of the textile rubber roller are detected by the existing detection equipment. The device comprises a frame and a supporting platform, wherein a driving roller is rotatably arranged on the frame, two conveying belts are arranged on the driving roller, a chain is arranged in the middle of each conveying belt, a base is slidably arranged on each conveying belt, a chain wheel is rotatably arranged on the base, a clamping mechanism is arranged on the base, a transmission mechanism is arranged between the clamping mechanism and the chain wheel, a detection mechanism is arranged on the supporting platform, and locking mechanisms are arranged on two sides of the supporting platform; the textile rubber roller detection device can automatically detect the surface flatness and roundness of the textile rubber roller in the moving process, can realize continuous detection, does not need to wait for feeding and discharging time, and improves the detection efficiency; can detect the textile rubber rollers with different diameters, and has a larger application range.

Description

Textile rubber roller detection device

Technical Field

The invention belongs to the technical field of textile machinery, and relates to a textile rubber roller detection device.

Background

The textile rubber roller is a roller-shaped product which is manufactured by taking metal or other materials as a core and externally coating rubber and vulcanizing. The textile rubber roller made of polyurethane has lower abrasion and good rebound resilience than the textile rubber roller made of nitrile rubber, and grinding is not needed. Before use, the coating layer is not needed, the winding phenomenon is avoided, and the grinding repair treatment is not needed in the use process. The production cost can be reduced for both the producer and the user, and the production efficiency can be improved;

through the search, for example, chinese patent literature discloses a rubber roll surface flatness detection apparatus [ application number: CN201922203439.5; publication No.: CN211060884U ]. This kind of check out test set includes the base, through crossbeam fixed connection between the backup pad including the backup pad of relative setting, the standing groove with the metal core adaptation has been seted up to backup pad axial direction top, constitute between the standing groove and detect the station, the backup pad outside both ends are equipped with the rotatory drive arrangement of drive rubber roll relatively, drive arrangement corresponds with the standing groove, detect the station and be equipped with roughness detection device, although can detect the surface smoothness of weaving rubber roll, but detect at every turn and need operating personnel to go up the unloading, can not carry out continuity detection, detection efficiency is lower.

Based on this, we have designed a spinning rubber roll detection device that detection efficiency is higher.

Disclosure of Invention

The invention aims at solving the problems in the prior art, and provides a textile rubber roller detection device, which aims at solving the technical problems that: how to realize the continuity detection of the detection rubber roller and improve the detection efficiency of the roundness and the flatness of the surface of the spinning rubber roller.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides a spinning rubber roll detection device, which comprises a frame and a supporting platform, it is provided with the drive roller to rotate in the frame, and install in the frame and be used for driving drive roller pivoted driving motor, install two symmetrical distribution's conveyer belt on the drive roller, be provided with the chain in the middle of the conveyer belt, and the conveyer belt outside surface is equipped with slide mechanism, slide on the slide mechanism and be provided with the base, and the base position on two conveyer belts corresponds each other, it is provided with the sprocket to rotate on the base, and sprocket and chain engagement, be equipped with the fixture who is used for centre gripping spinning rubber roll on the base, fixture includes the removal axle, and be equipped with drive mechanism between sprocket and the removal axle, supporting platform's upper surface and conveyer belt's inner wall laminating, and supporting platform's intermediate position has seted up the square groove, be provided with detection mechanism in the square groove, the control box is installed to supporting platform's side, supporting platform's both sides are equipped with the locking mechanism who is used for unable adjustment base, and locking mechanism aligns with the square groove.

The working principle of the invention is as follows: when the automatic feeding and discharging device is used, the textile rubber rollers are placed on two bases at corresponding positions, the two ends of the textile rubber rollers are positioned through the clamping mechanisms along with the operation of the conveying belt, when the textile rubber rollers move to the upper portion of the square groove, the bases are fixed by the locking mechanisms, the chain drives the chain wheel to rotate along with the operation of the conveying belt, the chain wheel drives the movable shaft to rotate through the transmission mechanism, so that the textile rubber rollers fixed by the clamping mechanisms are driven to rotate, in the rotating process of the textile rubber rollers, the detection mechanisms in the square groove can detect the roundness and the flatness of the surfaces of the textile rubber rollers, the display screen of the control box observe data, after detection is completed, the fixing of the bases is released, the bases continue to follow the operation of the conveying belt, and in the subsequent operation process, the clamping mechanisms release the fixing of the two ends of the textile rubber rollers, the textile rubber rollers after detection is taken out by the accounting department, the other base repeats the process, so that the continuity detection is realized, the feeding and discharging time is not needed, and the detection efficiency is higher.

The sliding mechanism comprises a plurality of single sliding rails, the single sliding rails are fixed on the conveying belt, the single sliding rails are abutted against each other end to end, a first magnetic block is embedded in the middle of each single sliding rail, a base is arranged on the single sliding rails in a sliding mode, and a second magnetic block aligned with the first magnetic block is embedded in the base.

By adopting the structure, the single slide rails are connected end to end, the base can slide on the plurality of single slide rails, the split type design of the single slide rails can not influence the operation of the conveyer belt at the bending part, in addition, the suction force between the first magnetic block and the second magnetic block can align the base with one single slide rail in a free state, the clamping between the two single slide rails is reduced, the operation smoothness of the conveyer belt is further improved, and the service life of the conveyer belt is prolonged.

The clamping mechanism further comprises two fixing seats fixed on the base, the movable shaft is arranged on the fixing seats in a sliding mode, a reset spring is sleeved on the movable shaft, a stop shoulder is fixed on the movable shaft, two ends of the reset spring are respectively abutted to the fixing seats and the stop shoulder, one end of the movable shaft is rotatably connected with a push rod, the end portion of the push rod is provided with a roller, two sides of the supporting platform are fixedly provided with a plurality of supporting columns, a guide plate is fixed on each supporting column, the middle position of the guide plate is bent towards the inner side of the supporting platform, a guide groove is formed in the guide plate, the roller is located in the guide groove, one end of the movable shaft, far away from the roller, is detachably connected with a sleeve used for sleeving the end portion of the textile rubber roller through a bolt, and a support frame is detachably fixed on the base through a bolt.

By adopting the structure, when the device is used, an operator can place the rotating shafts at the two ends of the spinning rubber roller on the supporting frame at the corresponding positions, along with the movement of the base, the rollers are extruded by the guide grooves, the moving shaft and the sleeve move towards the direction close to the spinning rubber roller, the two sleeves are sleeved on the rotating shafts at the two ends of the spinning rubber roller, the spinning rubber roller is clamped and fixed, after detection is completed, the rollers are not extruded by the guide grooves any more along with the movement of the base, at the moment, the reset spring can drive the two sides of the moving shaft to be separated, at the moment, the rotating shafts at the two ends of the spinning rubber roller are separated from the sleeve, and then the spinning rubber roller can be taken out.

The sleeve is characterized in that an elongated slot is formed in the edge of the sleeve, a push plate is arranged in the sleeve in a sliding mode, two protruding blocks are arranged at two ends of the push plate and are arranged in the elongated slot in a sliding mode, a thrust spring is fixed in the sleeve, the end portion of the thrust spring is fixed with the push plate, and a plurality of anti-slip gaskets are fixed on one side, away from the thrust spring, of the push plate.

By adopting the structure, when the sleeve is sleeved on the rotating shaft at the end part of the spinning rubber roller, the push plate moves towards the inside of the sleeve and compresses the thrust spring under the pushing of the spinning rubber roller, and the anti-slip gasket enables the spinning rubber roller to have larger friction force with the push plate, so that the spinning rubber roller can synchronously rotate with the sleeve, slipping is prevented, and the accuracy of a detection result is improved.

The transmission mechanism comprises a rotating rod which is rotatably arranged on two fixed seats, a chain wheel is fixed at the end part of the rotating rod, a limiting groove is formed in a movable shaft, a first belt pulley is sleeved on the movable shaft in a sliding mode, the belt pulley is located between the two fixed seats, a second belt pulley is fixed on the rotating rod, and a transmission belt is arranged between the first belt pulley and the second belt pulley.

With the structure, when the chain wheel rotates, the rotating rod is driven to rotate, the movable shaft is driven to rotate through the transmission belt, and the first belt pulley is positioned between the two fixed seats and is in sliding connection with the movable shaft, so that the translation of the movable shaft is not blocked.

The locking mechanism comprises a vertical plate fixed on the edge of the upper surface of the supporting platform, two sliding holes are formed in the vertical plate, a positioning rod and a limiting rod are respectively inserted in the two sliding holes in a sliding mode, a cross rod is fixed between the positioning rod and the limiting rod, an electric push rod is mounted on the vertical plate, and the end portion of a piston rod of the electric push rod is fixedly connected with the cross rod.

By adopting the structure, when the base moves to the position right above the square groove in use, the electric push rod stretches, the positioning rod and the limiting rod are pushed inwards, the positioning rod and the limiting rod are respectively clamped at two sides of the base, the accuracy of the detection structure is improved, the limiting rod can further prevent the base from shaking due to the attraction between the first magnetic block and the second magnetic block when the conveying belt runs, after detection is completed, the electric push rod drives the positioning rod and the limiting rod to reset, and the base can continue to follow the conveying belt to move.

The end part of the limiting rod is provided with a square hole, a lock tongue block is arranged in the square hole in a sliding mode, a tensioning spring is arranged in the square hole, and the end part of the tensioning spring abuts against the bottom of the lock tongue block.

By adopting the structure, when the electric push rod is used, the electric push rod can stretch before the base moves in place, at the moment, the movement of the base can compress the lock tongue block into the square hole, the movement of the base can not be blocked, after the base completely passes over the lock tongue block, the lock tongue block resets under the action of the tensioning spring, the two sides of the base can still be limited by the cooperation of the positioning rod, the telescopic time of the electric push rod is conveniently controlled, and the equipment is more convenient to use.

The detection mechanism comprises a transverse plate, the transverse plate is located under the square groove, a plurality of equally-spaced pressure sensors are installed on the transverse plate, sliding blocks are fixed at two ends of the transverse plate, sliding grooves are formed in supporting legs of a supporting platform, the sliding blocks are slidably arranged in the sliding grooves at corresponding positions, fixing plates are fixed on the inner sides of the supporting legs of the supporting platform, hydraulic cylinders are installed on the fixing plates, the upper ends of the hydraulic cylinders are fixed with the transverse plate, two side plates are fixed on two sides of the transverse plate, a plurality of fixing sleeves are arranged on the inner sides of the side plates, extension plates are fixed at the side ends of the fixing sleeves, the other side of the extension plates is fixed on the side plates, lifting rods are slidably arranged on the inner sides of the fixing sleeves, the lifting rods are located right above the pressure sensors at corresponding positions, rotating wheels are installed above the lifting rods, lifting springs are sleeved on the lifting rods, two ends of each lifting spring are respectively abutted to the base of the corresponding rotating wheels and the upper ends of the fixing sleeves, retaining rings are fixed on the lifting rods, and the retaining rings are abutted to the bottoms of the fixing sleeves.

By adopting the structure, when the spinning rubber roller moves to the position right above the square groove in use, the surface of the spinning rubber roller is propped against the rotating wheel, so that the bottom of the lifting rod is propped against the contact of the pressure sensor, in the rotating process of the spinning rubber roller, when the surface flatness of the spinning rubber roller does not reach the standard, the pressure difference between the pressure sensors is enlarged, when the surface roundness of the spinning rubber roller does not reach the standard, the pressure change amplitude of the single pressure sensor in the rotating process of the spinning rubber roller is enlarged, and therefore an operator can judge whether the surface flatness and roundness of the spinning rubber roller reach the standard or not through the detection values of the pressure sensors, and in addition, the heights of the transverse plates and the rotating wheel can be adjusted through the two hydraulic cylinders, so that the spinning rubber roller with different diameters is adapted.

Compared with the prior art, the textile rubber roller detection device has the following advantages:

1. through conveyer belt, fixture, locking mechanical system and detection mechanism, can detect its surface circle roughness and circularity automatically in the removal in-process of weaving rubber roll, can realize continuity detection, need not wait for the time of going up the unloading, improved detection efficiency.

2. Through pneumatic cylinder, diaphragm and slider, adjust the height of rotating the wheel for rotating the wheel and can just with waiting to detect textile rubber roller surface offset, thereby detect the textile rubber roller of different diameters, enlarged the application range of device.

3. Through slide mechanism's split type design, the smoothness when improving the conveyer belt operation can not lead to the fact tearing in the crooked place of conveyer belt, improves the life of conveyer belt, can carry out preliminary location to the position of base moreover, prevents that the base from sliding wantonly, improves device stability in use.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the structure of the support platform of the present invention;

FIG. 3 is a schematic perspective view of a detection mechanism according to the present invention;

FIG. 4 is a schematic plan view of a detection mechanism according to the present invention;

FIG. 5 is a schematic view of the locking mechanism of the present invention;

FIG. 6 is a schematic view of a partial structure of the present invention;

FIG. 7 is a schematic view of a clamping mechanism according to the present invention;

FIG. 8 is a schematic view of the internal structure of the sleeve of the present invention;

in the figure: 1. a frame; 2. a driving roller; 3. a driving motor; 4. a conveyor belt; 5. a chain; 6. a sliding mechanism; 601. a single slide rail; 602. a first magnetic block; 603. a second magnetic block; 7. a base; 8. a sprocket; 9. a clamping mechanism; 901. a fixing seat; 902. a movable shaft; 903. a return spring; 904. a shoulder; 905. a push rod; 906. a roller; 907. a support column; 908. a guide plate; 909. a guide groove; 910. a sleeve; 911. a support frame; 912. a long groove; 913. a push plate; 914. a bump; 915. an anti-slip gasket; 916. a thrust spring; 10. a transmission mechanism; 1001. a rotating lever; 1002. a drive belt; 11. a support platform; 12. a detection mechanism; 1201. a cross plate; 1202. a slide block; 1203. a chute; 1204. a fixing plate; 1205. a hydraulic cylinder; 1206. a side plate; 1207. a fixed sleeve; 1208. an extension plate; 1209. a lifting rod; 1210. a rotating wheel; 1211. a lifting spring; 1212. a baffle ring; 1213. a pressure sensor; 13. a locking mechanism; 1301. a vertical plate; 1302. a positioning rod; 1303. a limit rod; 1304. a cross bar; 1305. an electric push rod; 1306. square holes; 1307. a bolt block; 1308. tensioning a spring; 14. and a control box.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

Embodiments of the present patent are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the patent and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be configured and operated in a particular orientation, and are therefore not to be construed as limiting the patent.

In the description of this patent, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "disposed" are to be construed broadly, and may be fixedly connected, disposed, detachably connected, disposed, or integrally connected, disposed, for example. The specific meaning of the terms in this patent will be understood by those of ordinary skill in the art as the case may be.

Referring to fig. 1-8, the present embodiment provides a textile rubber roller detection device, including a frame 1 and a supporting platform 11, a driving roller 2 is rotatably disposed on the frame 1, a driving motor 3 for driving the driving roller 2 to rotate is mounted on the frame 1, two symmetrically distributed conveyor belts 4 are mounted on the driving roller 2, a chain 5 is disposed in the middle of the conveyor belts 4, a sliding mechanism 6 is disposed on the outer surface of the conveyor belts 4, a base 7 is slidably disposed on the sliding mechanism 6, positions of the bases 7 on the two conveyor belts 4 correspond to each other, a sprocket 8 is rotatably disposed on the base 7, the sprocket 8 is meshed with the chain 5, a clamping mechanism 9 for clamping the textile rubber roller is disposed on the base 7, the clamping mechanism 9 includes a moving shaft 902, a transmission mechanism 10 is disposed between the sprocket 8 and the moving shaft 902, an upper surface of the supporting platform 11 is attached to an inner wall of the conveyor belt 4, a square groove is formed in a middle position of the supporting platform 11, a detection mechanism 12 is disposed in the square groove, a control box 14 is mounted at a side end of the supporting platform 11, locking mechanism 13 for fixing the base 7 is disposed on two sides of the supporting platform 11, and the locking mechanism 13 is aligned with the square groove; when the automatic detection device is used, the textile rubber rollers are placed on the two bases 7 at corresponding positions, the two ends of the textile rubber rollers are positioned through the clamping mechanisms 9 along with the running of the conveying belt 4, when the textile rubber rollers move to the upper side of the square groove, the bases 7 are fixed through the locking mechanisms 13, along with the running of the conveying belt 4, the chain 5 drives the chain wheel 8 to rotate, the chain wheel 8 drives the movable shaft 902 to rotate through the transmission mechanism 10, thereby driving the textile rubber rollers fixed by the clamping mechanisms 9 to rotate, in the rotating process of the textile rubber rollers, the detection mechanisms 12 in the square groove can detect the surface roundness and flatness of the textile rubber rollers, after the detection is completed through the display screen observation data of the control box 14, the fixing of the bases 7 is released, the bases 7 continue to follow the running of the conveying belt 4 at the moment, in the subsequent running process, the clamping mechanisms 9 release the fixing of the two ends of the textile rubber rollers after the detection is completed, the other bases 7 are repeatedly used in the process, the continuous detection is realized, the waiting for the feeding time is not needed, and the detection efficiency is higher.

The sliding mechanism 6 comprises a plurality of single slide rails 601, the single slide rails 601 are fixed on the conveying belt 4, the single slide rails 601 are abutted against each other end to end, a first magnetic block 602 is embedded in the middle of each single slide rail 601, a base 7 is arranged on each single slide rail 601 in a sliding mode, and a second magnetic block 603 aligned with the first magnetic block 602 is embedded in the base 7; the monomer slide rail 601 end to end, base 7 can slide on a plurality of monomer slide rails 601, and the split type design of monomer slide rail 601 can not influence the operation of conveyer belt 4 in the bend, in addition the suction between first magnetic path 602 and the second magnetic path 603 can align this base 7 with one of them monomer slide rail 601 when free state, reduces its card between two monomer slide rails 601, further improves the smooth degree of operation of conveyer belt 4, increases the life of conveyer belt 4.

The clamping mechanism 9 further comprises two fixing seats 901 fixed on the base 7, the movable shaft 902 is arranged on the fixing seats 901 in a sliding manner, a reset spring 903 is sleeved on the movable shaft 902, a shoulder 904 is fixed on the movable shaft 902, two ends of the reset spring 903 are respectively propped against the fixing seats 901 and the shoulder 904, one end of the movable shaft 902 is rotatably connected with a push rod 905, the end part of the push rod 905 is provided with a roller 906, two sides of the supporting platform 11 are fixedly provided with a plurality of supporting columns 907, a guide plate 908 is fixed on the supporting columns 907, the middle position of the guide plate 908 is bent towards the inner side of the supporting platform 11, a guide groove 909 is formed in the guide plate 908, the roller 906 is positioned in the guide groove 909, one end of the movable shaft 902 far away from the roller 906 is detachably connected with a sleeve 910 for sleeving the end part of a textile rubber roller through a bolt, and the supporting frame 911 is detachably fixed on the base 7 through a bolt; when the spinning rubber roll detection device is used, an operator can place rotating shafts at two ends of the spinning rubber roll prevention on the supporting frame 911 at corresponding positions, along with movement of the base 7, the rollers 906 are extruded by the guide grooves 909, at the moment, the moving shaft 902 and the sleeves 910 move towards the direction close to the spinning rubber roll, the two sleeves 910 are sleeved on the rotating shafts at two ends of the spinning rubber roll to clamp and fix the spinning rubber roll, after detection is completed, along with movement of the base 7, the rollers 906 are not extruded by the guide grooves 909, at the moment, the reset springs 903 can drive the moving shaft 902 to separate towards two sides, at the moment, the rotating shafts at two ends of the spinning rubber roll are separated from the sleeves 910, and then the spinning rubber roll can be taken out.

The edge of the sleeve 910 is provided with a long groove 912, a push plate 913 is arranged in the sleeve 910 in a sliding way, two convex blocks 914 are arranged at the two ends of the push plate 913, the convex blocks 914 are arranged in the long groove 912 in a sliding way, a thrust spring 916 is fixed in the sleeve 910, the end part of the thrust spring 916 is fixed with the push plate 913, and a plurality of anti-slip gaskets 915 are fixed at one side of the push plate 913 away from the thrust spring 916; when the sleeve 910 is sleeved on the end rotating shaft of the textile rubber roller, the push plate 913 moves towards the inside of the sleeve 910 and compresses the thrust spring 916 under the pushing of the textile rubber roller, and the anti-slip gasket 915 enables the textile rubber roller to have larger friction force with the push plate 913, so that the textile rubber roller can synchronously rotate with the sleeve 910, slipping is prevented, and the accuracy of a detection result is improved.

The transmission mechanism 10 comprises a rotating rod 1001 rotatably arranged on two fixed seats 901, a chain wheel 8 is fixed at the end part of the rotating rod 1001, a limiting groove is formed in a moving shaft 902, a first belt pulley is sleeved on the moving shaft 902 in a sliding manner, the belt pulley is positioned between the two fixed seats 901, a second belt pulley is fixed on the rotating rod 1001, and a transmission belt 1002 is arranged between the first belt pulley and the second belt pulley; when the chain wheel 8 rotates, the rotating rod 1001 is driven to rotate, the driving belt 1002 drives the moving shaft 902 to rotate, and the first belt pulley is positioned between the two fixed seats 901 and is in sliding connection with the moving shaft 902, so that the translation of the moving shaft 902 is not blocked.

The locking mechanism 13 comprises a vertical plate 1301 fixed on the edge of the upper surface of the supporting platform 11, two sliding holes are formed in the vertical plate 1301, a positioning rod 1302 and a limiting rod 1303 are respectively inserted in the two sliding holes in a sliding manner, a cross rod 1304 is fixed between the positioning rod 1302 and the limiting rod 1303, an electric push rod 1305 is mounted on the vertical plate 1301, and the end part of a piston rod of the electric push rod 1305 is fixedly connected with the cross rod 1304; when in use, when the base 7 moves to the position right above the square groove, the electric push rod 1305 stretches to push the positioning rod 1302 and the limiting rod 1303 inwards, so that the positioning rod 1302 and the limiting rod 1303 are respectively clamped at two sides of the base 7, the base 7 is fixed, the accuracy of a detection structure is improved, the limiting rod 1303 can further prevent the base 7 from shaking due to the attraction force between the first magnetic block 602 and the second magnetic block 603 when the conveying belt 4 runs, and after detection is completed, the electric push rod 1305 drives the positioning rod 1302 and the limiting rod 1303 to reset, and the base 7 can continuously follow the conveying belt 4.

The end part of the limiting rod 1303 is provided with a square hole 1306, a lock tongue block 1307 is arranged in the square hole 1306 in a sliding way, a tensioning spring 1308 is arranged in the square hole 1306, and the end part of the tensioning spring 1308 is propped against the bottom part of the lock tongue block 1307; when the electric push rod 1305 is used, the electric push rod 1305 can be stretched before the base 7 moves in place, at this moment, the movement of the base 7 can compress the lock tongue block 1307 into the square hole 1306, the movement of the base 7 cannot be blocked, after the base 7 completely passes over the lock tongue block 1307, the lock tongue block 1307 is reset under the action of the tensioning spring 1308, the two sides of the base 7 can still be limited by the cooperation of the positioning rod 1302, the stretching time of the electric push rod 1305 is conveniently controlled, and the device is more convenient to use.

The detection mechanism 12 comprises a cross plate 1201, wherein the cross plate 1201 is positioned right below a square groove, a plurality of pressure sensors 1213 distributed at equal intervals are arranged on the cross plate 1201, sliding blocks 1202 are fixed at two ends of the cross plate 1201, sliding grooves 1203 are formed in supporting legs of a supporting platform 11, the sliding blocks 1202 are arranged in the sliding grooves 1203 at corresponding positions in a sliding manner, fixed plates 1204 are fixed at the inner sides of the supporting legs of the supporting platform 11, a hydraulic cylinder 1205 is arranged on the fixed plates 1204, the upper ends of the hydraulic cylinder 1205 are fixed with the cross plate 1201, two side plates 1206 are fixed at two sides of the cross plate 1201, a plurality of fixed sleeves 1207 are arranged at the inner sides of the side plates 1206, extension plates 1208 are fixed at the side ends of the fixed sleeves 1207, the other sides of the extension plates 1208 are fixed on the side plates 1206, lifting rods 1209 are arranged at the inner sides of the fixed sleeves 1207 in a sliding manner, the right above the pressure sensors 1213 at corresponding positions, rotating wheels 1210 are arranged above the lifting rods 1209, lifting springs 1211 are sleeved on the lifting rods 1209, two ends of the lifting springs 1211 respectively abut against the upper ends of the base of the rotating wheels 1210 and the fixed sleeves 1212, the upper ends of the lifting rods 1207 are fixed with retaining rings 1207; when the textile rubber roller is used, when the textile rubber roller moves to the position right above the square groove, the surface of the textile rubber roller is propped against the rotating wheel 1210, the bottom of the lifting rod 1209 is propped against the contact of the pressure sensor 1213, in the rotating process of the textile rubber roller, when the surface flatness of the textile rubber roller does not reach the standard, the pressure difference between the pressure sensors 1213 is enlarged, when the surface roundness of the textile rubber roller does not reach the standard, the pressure change amplitude of the single pressure sensor 1213 in the rotating process of the textile rubber roller is enlarged, so that an operator can judge whether the surface flatness and roundness of the textile rubber roller reach the standard or not through the detection value of the pressure sensor 1213, and in addition, the heights of the transverse plate 1201 and the rotating wheel 1210 can be adjusted through the two hydraulic cylinders 1205, so that the textile rubber roller is suitable for textile rubber rollers with different diameters.

The fixing modes are all the most commonly used fixing connection modes in the field, such as welding, bolting and the like; the above electrical components, such as the driving motor 3, the electric push rod 1305, the hydraulic cylinder 1205, the pressure sensor 1213, etc., are all products of the prior art, and can be directly purchased and used in the market, and the specific principle is not repeated.

The working principle of the invention is as follows:

when in use, an operator can place the rotating shafts at the two ends of the spinning rubber roller on the supporting frame 911 at the corresponding positions, the moving seat 7 moves synchronously along with the conveyer belt 4 under the combined action of the first magnetic block 602 and the second magnetic block 603 along with the conveyer belt 4, in the moving process, the roller 906 is extruded by the guide groove 909, the moving shaft 902 and the sleeve 910 move towards the direction close to the spinning rubber roller, the two sleeves 910 are sleeved on the rotating shafts at the two ends of the spinning rubber roller to clamp and fix the spinning rubber roller, the electric push rod 1305 stretches before the spinning rubber roller moves to the upper part of the square groove, the movement of the seat 7 compresses the lock tongue block 1307 into the square hole 1306, the movement of the seat 7 is not blocked, the seat 7 is blocked by the positioning rod 1302 after completely crossing the lock tongue block 1307, the lock tongue block 1307 is reset under the action of the tensioning spring 1308, the matching positioning rod 1302 still can limit the two sides of the base 7, at this time, the base 7 cannot rotate, along with the running of the conveying belt 4, the chain 5 drives the sprocket 8 to rotate, the sprocket 8 drives the moving shaft 902 to rotate through the driving belt 1002, thereby driving the spinning rubber roll to rotate, the surface of the spinning rubber roll is propped against the rotating wheel 1210, the bottom of the lifting rod 1209 is propped against the contact of the pressure sensor 1213, during the rotation process of the spinning rubber roll, when the surface flatness of the spinning rubber roll does not reach the standard, the pressure difference between the pressure sensors 1213 is enlarged, when the surface roundness of the spinning rubber roll does not reach the standard, the pressure change amplitude of the single pressure sensor 1213 during the rotation process of the spinning rubber roll is enlarged, therefore, an operator can judge whether the surface flatness and roundness of the spinning rubber roll reach the standard or not through the detection value of the pressure sensor 1213, the electric push rod 1305 drives the positioning rod 1302 and the limiting rod 1303 to reset, at this time, the base 7 can continue to move along with the conveyor belt 4, and in the subsequent operation process, the roller 906 is not extruded by the guide groove 909 any more, at this time, the reset spring 903 can drive the moving shaft 902 to separate towards two sides, at this time, the rotating shafts at two ends of the textile rubber roller are separated from the sleeve 910, then the textile rubber roller can be taken out, the process is repeated by the other base 7 at the rear, so that continuity detection is realized, waiting for loading and unloading time is not needed, and detection efficiency is higher.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. The utility model provides a spinning rubber roll detection device, which comprises a frame (1) and a supporting platform (11), a serial communication port, rotate on frame (1) and be provided with drive roller (2), and install on frame (1) and be used for driving drive roller (2) pivoted driving motor (3), install two symmetrical distribution's conveyer belt (4) on drive roller (2), be provided with chain (5) in the middle of conveyer belt (4), and conveyer belt (4) surface is equipped with slide mechanism (6), slide on slide mechanism (6) and be provided with base (7), and base (7) position on two conveyer belts (4) mutually corresponds, rotate on base (7) and be provided with sprocket (8), and sprocket (8) and chain (5) meshing, be equipped with on base (7) and be used for centre gripping spinning rubber roll's fixture (9), fixture (9) are including movable shaft (902), and be equipped with drive mechanism (10) between sprocket (8) and movable shaft (902), the upper surface of supporting platform (11) is laminated with the inner wall of conveyer belt (4), and the intermediate position of supporting platform (11) slides and is provided with base (7), and is provided with in the supporting platform (14) side of detecting groove (14) and is provided with control end (14), locking mechanisms (13) for fixing the base (7) are arranged on two sides of the supporting platform (11), and the locking mechanisms (13) are aligned with the square grooves.

2. The spinning rubber roll detection device according to claim 1, wherein the sliding mechanism (6) comprises a plurality of single sliding rails (601), the single sliding rails (601) are fixed on the conveying belt (4), the single sliding rails (601) are abutted against each other end to end, a first magnetic block (602) is embedded in the middle of each single sliding rail (601), the base (7) is arranged on the single sliding rail (601) in a sliding mode, and a second magnetic block (603) aligned with the first magnetic block (602) is embedded in the base (7).

3. The textile rubber roller detection device according to claim 1 or 2, wherein the clamping mechanism (9) further comprises two fixing seats (901) fixed on the base (7), the movable shaft (902) is slidably arranged on the fixing seats (901), a return spring (903) is sleeved on the movable shaft (902), a shoulder (904) is fixed on the movable shaft (902), two ends of the return spring (903) are respectively abutted against the fixing seats (901) and the shoulder (904), one end of the movable shaft (902) is rotatably connected with a push rod (905), a roller (906) is mounted at the end of the push rod (905), a plurality of support columns (907) are fixed on two sides of the supporting platform (11), a guide plate (908) is fixed on the support columns (907), the middle position of the guide plate (908) is bent towards the inner side of the supporting platform (11), a guide groove (909) is formed in the guide groove (909), one end, far away from the roller (902), of the roller (906) is detachably connected with a sleeve (911) through a bolt, and the sleeve (911) is used for being sleeved on the end of the textile rubber roller (902), and the support frame (7) can be detached through the bolt (910).

4. The spinning rubber roll detection device according to claim 3, wherein an elongated slot (912) is formed in the edge of the sleeve (910), a push plate (913) is slidably arranged in the sleeve (910), two protruding blocks (914) are arranged at two ends of the push plate (913), the protruding blocks (914) are slidably arranged in the elongated slot (912), a thrust spring (916) is fixed in the sleeve (910), the end portion of the thrust spring (916) is fixed with the push plate (913), and a plurality of anti-slip gaskets (915) are fixed on one side, away from the thrust spring (916), of the push plate (913).

5. The spinning rubber roll detection device according to claim, wherein the transmission mechanism (10) comprises a rotating rod (1001) rotatably arranged on two fixed seats (901), the chain wheel (8) is fixed at the end part of the rotating rod (1001), the moving shaft (902) is provided with a limiting groove, the moving shaft (902) is slidably sleeved with a first belt pulley, the belt pulley is positioned between the two fixed seats (901), a second belt pulley is fixed on the rotating rod (1001), and a transmission belt (1002) is arranged between the first belt pulley and the second belt pulley.

6. The textile rubber roller detection device according to claim 1 or 2, wherein the locking mechanism (13) comprises a vertical plate (1301) fixed on the edge of the upper surface of the supporting platform (11), two sliding holes are formed in the vertical plate (1301), a positioning rod (1302) and a limiting rod (1303) are respectively inserted in the two sliding holes in a sliding manner, a cross rod (1304) is fixed between the positioning rod (1302) and the limiting rod (1303), an electric push rod (1305) is installed on the vertical plate (1301), and the end part of a piston rod of the electric push rod (1305) is fixedly connected with the cross rod (1304).

7. The textile rubber roller detection device according to claim 6, wherein a square hole (1306) is formed in the end portion of the limit rod (1303), a lock tongue block (1307) is slidably arranged in the square hole (1306), a tensioning spring (1308) is arranged in the square hole (1306), and the end portion of the tensioning spring (1308) abuts against the bottom of the lock tongue block (1307).

8. The detecting device for textile rubber rollers according to claim 1, wherein the detecting mechanism (12) comprises a cross plate (1201), the cross plate (1201) is positioned under the square groove, a plurality of equally-spaced pressure sensors (1213) are arranged on the cross plate (1201), sliding blocks (1202) are fixed at two ends of the cross plate (1201), sliding grooves (1203) are formed in supporting legs of the supporting platform (11), the sliding blocks (1202) are arranged in the sliding grooves (1203) at corresponding positions in a sliding manner, fixing plates (1204) are fixed on the inner sides of the supporting legs of the supporting platform (11), hydraulic cylinders (1205) are arranged on the fixing plates (1204), the upper ends of the hydraulic cylinders (1205) are fixed with the cross plate (1201), two side plates (1206) are fixed on two sides of the cross plate (1201), a plurality of fixing sleeves (1207) are arranged on the inner sides of the side plates (1206), extending plates (1208) are fixed on the other sides of the side plates (1206), lifting rods (1207) are arranged on the inner sides of the fixing sleeves (1207) in a sliding manner, lifting rods (1209) are arranged on the inner sides of the lifting rods (1209) in a sliding manner, the lifting rods (1209) are arranged on the lifting rods (1219) and are arranged on the lifting rods (1219) in a position corresponding manner, and the lifting rods (1219) are arranged on the lifting rods (1211), and the two ends of the lifting spring (1211) are respectively propped against the base of the rotating wheel (1210) and the upper end of the fixed sleeve (1207), the baffle ring (1212) is fixed on the lifting rod (1209), and the baffle ring (1212) is propped against the bottom of the fixed sleeve (1207).